Textile, Leather, Paper and Industrial Chemicals

POLYQUATERNIUM-57
POLYQUATERNIUM-59; Origine(s) : Synthétique; Nom INCI : POLYQUATERNIUM-59; Classification : Ammonium quaternaire, Polymère de synthèse. Ses fonctions (INCI); Absorbant UV : Protège le produit cosmétique contre les effets de la lumière UV. Polyquaternium is the International Nomenclature for Cosmetic Ingredients designation for several polycationic polymers that are used in the personal care industry. Polyquaternium is a neologism used to emphasize the presence of quaternary ammonium centers in the polymer. INCI has approved at least 40 different polymers under the polyquaternium designation. Different polymers are distinguished by the numerical value that follows the word "polyquaternium". Polyquaternium-5, polyquaternium-7, and polyquaternium-47 are three examples, each a chemically different type of polymer. The numbers are assigned in the order in which they are registered rather than because of their chemical structure. Polyquaterniums find particular application in conditioners, shampoo, hair mousse, hair spray, hair dye, personal lubricant, and contact lens solutions. Because they are positively charged, they neutralize the negative charges of most shampoos and hair proteins and help hair lie flat. Their positive charges also ionically bond them to hair and skin. Some have antimicrobial properties. List of Polyquaterniums: Polyquaternium Chemical Identity Polyquaternium-1: Ethanol, 2,2′,2″ -nitrilotris-, polymer with 1,4-dichloro-2-butene and N,N,N′,N′-tetramethyl-2-butene-1,4-diamine Polyquaternium-2: Poly[bis(2-chloroethyl) ether-alt-1,3-bis[3-(dimethylamino)propyl]urea] Polyquaternium-4: Hydroxyethyl cellulose dimethyl diallylammonium chloride copolymer; Diallyldimethylammonium chloride-hydroxyethyl cellulose copolymer Polyquaternium-5: Copolymer of acrylamide and quaternized dimethylammoniumethyl methacrylate Polyquaternium-6: Poly(diallyldimethylammonium chloride) Polyquaternium-7: Copolymer of acrylamide and diallyldimethylammonium chloride Polyquaternium-8 : Copolymer of methyl and stearyl dimethylaminoethyl ester of methacrylic acid, quaternized with dimethylsulphate[2] Polyquaternium-9 : Homopolymer of N,N-(dimethylamino)ethyl ester of methacrylic acid, quaternized with bromomethane Polyquaternium-10: Quaternized hydroxyethyl cellulose Polyquaternium-11: Copolymer of vinylpyrrolidone and quaternized dimethylaminoethyl methacrylate Polyquaternium-12: Ethyl methacrylate / abietyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-13: Ethyl methacrylate / oleyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-14: Trimethylaminoethylmethacrylate homopolymer Polyquaternium-15: Acrylamide-dimethylaminoethyl methacrylate methyl chloride copolymer Polyquaternium-16: Copolymer of vinylpyrrolidone and quaternized vinylimidazole Polyquaternium-17: Adipic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-18: Azelaic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-19: Copolymer of polyvinyl alcohol and 2,3-epoxypropylamine Polyquaternium-20 : Copolymer of polyvinyl octadecyl ether and 2,3-epoxypropylamine Polyquaternium-22: Copolymer of acrylic acid and diallyldimethylammonium Chloride Polyquaternium-24: Quaternary ammonium salt of hydroxyethyl cellulose reacted with a lauryl dimethyl ammonium substituted epoxide. Polyquaternium-27: Block copolymer of Polyquaternium-2 and Polyquaternium-17 Polyquaternium-28: Copolymer of vinylpyrrolidone and methacrylamidopropyl trimethylammonium Polyquaternium-29: Chitosan modified with propylen oxide and quaternized with epichlorhydrin Polyquaternium-30: Ethanaminium, N-(carboxymethyl)-N,N-dimethyl-2-[(2-methyl-1-oxo-2-propen-1-yl)oxy]-, inner salt, polymer with methyl 2-methyl-2-propenoate Polyquaternium-31: N,N- dimethylaminopropyl-N-acrylamidine quatemized with diethylsulfate bound to a block of polyacrylonitrile Polyquaternium-32: Poly(acrylamide 2-methacryloxyethyltrimethyl ammonium chloride) Polyquaternium-33: Copolymer of trimethylaminoethylacrylate salt and acrylamide Polyquaternium-34: Copolymer of 1,3-dibromopropane and N,N-diethyl-N′,N′-dimethyl-1,3-propanediamine Polyquaternium-35: Methosulphate of the copolymer of methacryloyloxyethyltrimethylammonium and of methacryloyloxyethyldimethylacetylammonium Polyquaternium-36: Copolymer of N,N-dimethylaminoethylmethacrylate and buthylmethacrylate, quaternized with dimethylsulphate Polyquaternium-37: Poly(2-methacryloxyethyltrimethylammonium chloride) Polyquaternium-39: Terpolymer of acrylic acid, acrylamide and diallyldimethylammonium Chloride Polyquaternium-42: Poly[oxyethylene(dimethylimino)ethylene (dimethylimino)ethylene dichloride] Polyquaternium-43: Copolymer of acrylamide, acrylamidopropyltrimonium chloride, 2-amidopropylacrylamide sulfonate and dimethylaminopropylamine Polyquaternium-44: 3-Methyl-1-vinylimidazolium methyl sulfate-N-vinylpyrrolidone copolymer Polyquaternium-45: Copolymer of (N-methyl-N-ethoxyglycine)methacrylate and N,N-dimethylaminoethylmethacrylate, quaternized with dimethyl sulphate Polyquaternium-46: Terpolymer of vinylcaprolactam, vinylpyrrolidone, and quaternized vinylimidazole Polyquaternium-47: Terpolymer of acrylic acid, methacrylamidopropyl trimethylammonium chloride, and methyl acrylate
POLYQUATERNIUM-59
POLYQUATERNIUM-6; N° CAS : 26062-79-3; Origine(s) : Synthétique. Nom INCI : POLYQUATERNIUM-6; Classification : Ammonium quaternaire, Polymère de synthèse. Ses fonctions (INCI); Antistatique : Réduit l'électricité statique en neutralisant la charge électrique sur une surface; Agent filmogène : Produit un film continu sur la peau, les cheveux ou les ongles. Polyquaternium is the International Nomenclature for Cosmetic Ingredients designation for several polycationic polymers that are used in the personal care industry. Polyquaternium is a neologism used to emphasize the presence of quaternary ammonium centers in the polymer. INCI has approved at least 40 different polymers under the polyquaternium designation. Different polymers are distinguished by the numerical value that follows the word "polyquaternium". Polyquaternium-5, polyquaternium-7, and polyquaternium-47 are three examples, each a chemically different type of polymer. The numbers are assigned in the order in which they are registered rather than because of their chemical structure. Polyquaterniums find particular application in conditioners, shampoo, hair mousse, hair spray, hair dye, personal lubricant, and contact lens solutions. Because they are positively charged, they neutralize the negative charges of most shampoos and hair proteins and help hair lie flat. Their positive charges also ionically bond them to hair and skin. Some have antimicrobial properties. List of Polyquaterniums: Polyquaternium Chemical Identity Polyquaternium-1: Ethanol, 2,2′,2″ -nitrilotris-, polymer with 1,4-dichloro-2-butene and N,N,N′,N′-tetramethyl-2-butene-1,4-diamine Polyquaternium-2: Poly[bis(2-chloroethyl) ether-alt-1,3-bis[3-(dimethylamino)propyl]urea] Polyquaternium-4: Hydroxyethyl cellulose dimethyl diallylammonium chloride copolymer; Diallyldimethylammonium chloride-hydroxyethyl cellulose copolymer Polyquaternium-5: Copolymer of acrylamide and quaternized dimethylammoniumethyl methacrylate Polyquaternium-6: Poly(diallyldimethylammonium chloride) Polyquaternium-7: Copolymer of acrylamide and diallyldimethylammonium chloride Polyquaternium-8 : Copolymer of methyl and stearyl dimethylaminoethyl ester of methacrylic acid, quaternized with dimethylsulphate[2] Polyquaternium-9 : Homopolymer of N,N-(dimethylamino)ethyl ester of methacrylic acid, quaternized with bromomethane Polyquaternium-10: Quaternized hydroxyethyl cellulose Polyquaternium-11: Copolymer of vinylpyrrolidone and quaternized dimethylaminoethyl methacrylate Polyquaternium-12: Ethyl methacrylate / abietyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-13: Ethyl methacrylate / oleyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-14: Trimethylaminoethylmethacrylate homopolymer Polyquaternium-15: Acrylamide-dimethylaminoethyl methacrylate methyl chloride copolymer Polyquaternium-16: Copolymer of vinylpyrrolidone and quaternized vinylimidazole Polyquaternium-17: Adipic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-18: Azelaic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-19: Copolymer of polyvinyl alcohol and 2,3-epoxypropylamine Polyquaternium-20 : Copolymer of polyvinyl octadecyl ether and 2,3-epoxypropylamine Polyquaternium-22: Copolymer of acrylic acid and diallyldimethylammonium Chloride Polyquaternium-24: Quaternary ammonium salt of hydroxyethyl cellulose reacted with a lauryl dimethyl ammonium substituted epoxide. Polyquaternium-27: Block copolymer of Polyquaternium-2 and Polyquaternium-17 Polyquaternium-28: Copolymer of vinylpyrrolidone and methacrylamidopropyl trimethylammonium Polyquaternium-29: Chitosan modified with propylen oxide and quaternized with epichlorhydrin Polyquaternium-30: Ethanaminium, N-(carboxymethyl)-N,N-dimethyl-2-[(2-methyl-1-oxo-2-propen-1-yl)oxy]-, inner salt, polymer with methyl 2-methyl-2-propenoate Polyquaternium-31: N,N- dimethylaminopropyl-N-acrylamidine quatemized with diethylsulfate bound to a block of polyacrylonitrile Polyquaternium-32: Poly(acrylamide 2-methacryloxyethyltrimethyl ammonium chloride) Polyquaternium-33: Copolymer of trimethylaminoethylacrylate salt and acrylamide Polyquaternium-34: Copolymer of 1,3-dibromopropane and N,N-diethyl-N′,N′-dimethyl-1,3-propanediamine Polyquaternium-35: Methosulphate of the copolymer of methacryloyloxyethyltrimethylammonium and of methacryloyloxyethyldimethylacetylammonium Polyquaternium-36: Copolymer of N,N-dimethylaminoethylmethacrylate and buthylmethacrylate, quaternized with dimethylsulphate Polyquaternium-37: Poly(2-methacryloxyethyltrimethylammonium chloride) Polyquaternium-39: Terpolymer of acrylic acid, acrylamide and diallyldimethylammonium Chloride Polyquaternium-42: Poly[oxyethylene(dimethylimino)ethylene (dimethylimino)ethylene dichloride] Polyquaternium-43: Copolymer of acrylamide, acrylamidopropyltrimonium chloride, 2-amidopropylacrylamide sulfonate and dimethylaminopropylamine Polyquaternium-44: 3-Methyl-1-vinylimidazolium methyl sulfate-N-vinylpyrrolidone copolymer Polyquaternium-45: Copolymer of (N-methyl-N-ethoxyglycine)methacrylate and N,N-dimethylaminoethylmethacrylate, quaternized with dimethyl sulphate Polyquaternium-46: Terpolymer of vinylcaprolactam, vinylpyrrolidone, and quaternized vinylimidazole Polyquaternium-47: Terpolymer of acrylic acid, methacrylamidopropyl trimethylammonium chloride, and methyl acrylate
POLYQUATERNIUM-6
Poly-N,N-dimethyl-N,N-diallylammonium chloride; Polyquaternium-6;poly(diallyl dimethyl ammonium chloride); poly(diallyldimethylammonium chloride); poly(dimethyl diallyl ammonium chloride) cas no: 26062-79-3
POLYQUATERNIUM-60
POLYQUATERNIUM-61; Origine(s) : Synthétique; Nom INCI : POLYQUATERNIUM-61; Classification : Ammonium quaternaire, Polymère de synthèse. Ses fonctions (INCI); Agent filmogène :Produit un film continu sur la peau, les cheveux ou les ongles. Agent d'entretien de la peau : Maintient la peau en bon état; Polyquaternium is the International Nomenclature for Cosmetic Ingredients designation for several polycationic polymers that are used in the personal care industry. Polyquaternium is a neologism used to emphasize the presence of quaternary ammonium centers in the polymer. INCI has approved at least 40 different polymers under the polyquaternium designation. Different polymers are distinguished by the numerical value that follows the word "polyquaternium". Polyquaternium-5, polyquaternium-7, and polyquaternium-47 are three examples, each a chemically different type of polymer. The numbers are assigned in the order in which they are registered rather than because of their chemical structure. Polyquaterniums find particular application in conditioners, shampoo, hair mousse, hair spray, hair dye, personal lubricant, and contact lens solutions. Because they are positively charged, they neutralize the negative charges of most shampoos and hair proteins and help hair lie flat. Their positive charges also ionically bond them to hair and skin. Some have antimicrobial properties. List of Polyquaterniums: Polyquaternium Chemical Identity Polyquaternium-1: Ethanol, 2,2′,2″ -nitrilotris-, polymer with 1,4-dichloro-2-butene and N,N,N′,N′-tetramethyl-2-butene-1,4-diamine Polyquaternium-2: Poly[bis(2-chloroethyl) ether-alt-1,3-bis[3-(dimethylamino)propyl]urea] Polyquaternium-4: Hydroxyethyl cellulose dimethyl diallylammonium chloride copolymer; Diallyldimethylammonium chloride-hydroxyethyl cellulose copolymer Polyquaternium-5: Copolymer of acrylamide and quaternized dimethylammoniumethyl methacrylate Polyquaternium-6: Poly(diallyldimethylammonium chloride) Polyquaternium-7: Copolymer of acrylamide and diallyldimethylammonium chloride Polyquaternium-8 : Copolymer of methyl and stearyl dimethylaminoethyl ester of methacrylic acid, quaternized with dimethylsulphate[2] Polyquaternium-9 : Homopolymer of N,N-(dimethylamino)ethyl ester of methacrylic acid, quaternized with bromomethane Polyquaternium-10: Quaternized hydroxyethyl cellulose Polyquaternium-11: Copolymer of vinylpyrrolidone and quaternized dimethylaminoethyl methacrylate Polyquaternium-12: Ethyl methacrylate / abietyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-13: Ethyl methacrylate / oleyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-14: Trimethylaminoethylmethacrylate homopolymer Polyquaternium-15: Acrylamide-dimethylaminoethyl methacrylate methyl chloride copolymer Polyquaternium-16: Copolymer of vinylpyrrolidone and quaternized vinylimidazole Polyquaternium-17: Adipic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-18: Azelaic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-19: Copolymer of polyvinyl alcohol and 2,3-epoxypropylamine Polyquaternium-20 : Copolymer of polyvinyl octadecyl ether and 2,3-epoxypropylamine Polyquaternium-22: Copolymer of acrylic acid and diallyldimethylammonium Chloride Polyquaternium-24: Quaternary ammonium salt of hydroxyethyl cellulose reacted with a lauryl dimethyl ammonium substituted epoxide. Polyquaternium-27: Block copolymer of Polyquaternium-2 and Polyquaternium-17 Polyquaternium-28: Copolymer of vinylpyrrolidone and methacrylamidopropyl trimethylammonium Polyquaternium-29: Chitosan modified with propylen oxide and quaternized with epichlorhydrin Polyquaternium-30: Ethanaminium, N-(carboxymethyl)-N,N-dimethyl-2-[(2-methyl-1-oxo-2-propen-1-yl)oxy]-, inner salt, polymer with methyl 2-methyl-2-propenoate Polyquaternium-31: N,N- dimethylaminopropyl-N-acrylamidine quatemized with diethylsulfate bound to a block of polyacrylonitrile Polyquaternium-32: Poly(acrylamide 2-methacryloxyethyltrimethyl ammonium chloride) Polyquaternium-33: Copolymer of trimethylaminoethylacrylate salt and acrylamide Polyquaternium-34: Copolymer of 1,3-dibromopropane and N,N-diethyl-N′,N′-dimethyl-1,3-propanediamine Polyquaternium-35: Methosulphate of the copolymer of methacryloyloxyethyltrimethylammonium and of methacryloyloxyethyldimethylacetylammonium Polyquaternium-36: Copolymer of N,N-dimethylaminoethylmethacrylate and buthylmethacrylate, quaternized with dimethylsulphate Polyquaternium-37: Poly(2-methacryloxyethyltrimethylammonium chloride) Polyquaternium-39: Terpolymer of acrylic acid, acrylamide and diallyldimethylammonium Chloride Polyquaternium-42: Poly[oxyethylene(dimethylimino)ethylene (dimethylimino)ethylene dichloride] Polyquaternium-43: Copolymer of acrylamide, acrylamidopropyltrimonium chloride, 2-amidopropylacrylamide sulfonate and dimethylaminopropylamine Polyquaternium-44: 3-Methyl-1-vinylimidazolium methyl sulfate-N-vinylpyrrolidone copolymer Polyquaternium-45: Copolymer of (N-methyl-N-ethoxyglycine)methacrylate and N,N-dimethylaminoethylmethacrylate, quaternized with dimethyl sulphate Polyquaternium-46: Terpolymer of vinylcaprolactam, vinylpyrrolidone, and quaternized vinylimidazole Polyquaternium-47: Terpolymer of acrylic acid, methacrylamidopropyl trimethylammonium chloride, and methyl acrylate
POLYQUATERNIUM-61
POLYQUATERNIUM-67; Origine(s) : Synthétique; Nom INCI : POLYQUATERNIUM-67; Classification : Ammonium quaternaire, Polymère de synthèse. Ses fonctions (INCI). Antistatique : Réduit l'électricité statique en neutralisant la charge électrique sur une surface. Agent filmogène : Produit un film continu sur la peau, les cheveux ou les ongles. Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance. Polyquaternium is the International Nomenclature for Cosmetic Ingredients designation for several polycationic polymers that are used in the personal care industry. Polyquaternium is a neologism used to emphasize the presence of quaternary ammonium centers in the polymer. INCI has approved at least 40 different polymers under the polyquaternium designation. Different polymers are distinguished by the numerical value that follows the word "polyquaternium". Polyquaternium-5, polyquaternium-7, and polyquaternium-47 are three examples, each a chemically different type of polymer. The numbers are assigned in the order in which they are registered rather than because of their chemical structure. Polyquaterniums find particular application in conditioners, shampoo, hair mousse, hair spray, hair dye, personal lubricant, and contact lens solutions. Because they are positively charged, they neutralize the negative charges of most shampoos and hair proteins and help hair lie flat. Their positive charges also ionically bond them to hair and skin. Some have antimicrobial properties. List of Polyquaterniums: Polyquaternium Chemical Identity Polyquaternium-1: Ethanol, 2,2′,2″ -nitrilotris-, polymer with 1,4-dichloro-2-butene and N,N,N′,N′-tetramethyl-2-butene-1,4-diamine Polyquaternium-2: Poly[bis(2-chloroethyl) ether-alt-1,3-bis[3-(dimethylamino)propyl]urea] Polyquaternium-4: Hydroxyethyl cellulose dimethyl diallylammonium chloride copolymer; Diallyldimethylammonium chloride-hydroxyethyl cellulose copolymer Polyquaternium-5: Copolymer of acrylamide and quaternized dimethylammoniumethyl methacrylate Polyquaternium-6: Poly(diallyldimethylammonium chloride) Polyquaternium-7: Copolymer of acrylamide and diallyldimethylammonium chloride Polyquaternium-8 : Copolymer of methyl and stearyl dimethylaminoethyl ester of methacrylic acid, quaternized with dimethylsulphate[2] Polyquaternium-9 : Homopolymer of N,N-(dimethylamino)ethyl ester of methacrylic acid, quaternized with bromomethane Polyquaternium-10: Quaternized hydroxyethyl cellulose Polyquaternium-11: Copolymer of vinylpyrrolidone and quaternized dimethylaminoethyl methacrylate Polyquaternium-12: Ethyl methacrylate / abietyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-13: Ethyl methacrylate / oleyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-14: Trimethylaminoethylmethacrylate homopolymer Polyquaternium-15: Acrylamide-dimethylaminoethyl methacrylate methyl chloride copolymer Polyquaternium-16: Copolymer of vinylpyrrolidone and quaternized vinylimidazole Polyquaternium-17: Adipic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-18: Azelaic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-19: Copolymer of polyvinyl alcohol and 2,3-epoxypropylamine Polyquaternium-20 : Copolymer of polyvinyl octadecyl ether and 2,3-epoxypropylamine Polyquaternium-22: Copolymer of acrylic acid and diallyldimethylammonium Chloride Polyquaternium-24: Quaternary ammonium salt of hydroxyethyl cellulose reacted with a lauryl dimethyl ammonium substituted epoxide. Polyquaternium-27: Block copolymer of Polyquaternium-2 and Polyquaternium-17 Polyquaternium-28: Copolymer of vinylpyrrolidone and methacrylamidopropyl trimethylammonium Polyquaternium-29: Chitosan modified with propylen oxide and quaternized with epichlorhydrin Polyquaternium-30: Ethanaminium, N-(carboxymethyl)-N,N-dimethyl-2-[(2-methyl-1-oxo-2-propen-1-yl)oxy]-, inner salt, polymer with methyl 2-methyl-2-propenoate Polyquaternium-31: N,N- dimethylaminopropyl-N-acrylamidine quatemized with diethylsulfate bound to a block of polyacrylonitrile Polyquaternium-32: Poly(acrylamide 2-methacryloxyethyltrimethyl ammonium chloride) Polyquaternium-33: Copolymer of trimethylaminoethylacrylate salt and acrylamide Polyquaternium-34: Copolymer of 1,3-dibromopropane and N,N-diethyl-N′,N′-dimethyl-1,3-propanediamine Polyquaternium-35: Methosulphate of the copolymer of methacryloyloxyethyltrimethylammonium and of methacryloyloxyethyldimethylacetylammonium Polyquaternium-36: Copolymer of N,N-dimethylaminoethylmethacrylate and buthylmethacrylate, quaternized with dimethylsulphate Polyquaternium-37: Poly(2-methacryloxyethyltrimethylammonium chloride) Polyquaternium-39: Terpolymer of acrylic acid, acrylamide and diallyldimethylammonium Chloride Polyquaternium-42: Poly[oxyethylene(dimethylimino)ethylene (dimethylimino)ethylene dichloride] Polyquaternium-43: Copolymer of acrylamide, acrylamidopropyltrimonium chloride, 2-amidopropylacrylamide sulfonate and dimethylaminopropylamine Polyquaternium-44: 3-Methyl-1-vinylimidazolium methyl sulfate-N-vinylpyrrolidone copolymer Polyquaternium-45: Copolymer of (N-methyl-N-ethoxyglycine)methacrylate and N,N-dimethylaminoethylmethacrylate, quaternized with dimethyl sulphate Polyquaternium-46: Terpolymer of vinylcaprolactam, vinylpyrrolidone, and quaternized vinylimidazole Polyquaternium-47: Terpolymer of acrylic acid, methacrylamidopropyl trimethylammonium chloride, and methyl acrylate
POLYQUATERNIUM-67
POLYQUATERNIUM-68; Origine(s) : Synthétique; Nom INCI : POLYQUATERNIUM-68; Classification : Ammonium quaternaire, Polymère de synthèse. Ses fonctions (INCI); Agent filmogène : Produit un film continu sur la peau, les cheveux ou les ongles. Agent de fixation capillaire : Permet de contrôler le style du cheveu. Polyquaternium is the International Nomenclature for Cosmetic Ingredients designation for several polycationic polymers that are used in the personal care industry. Polyquaternium is a neologism used to emphasize the presence of quaternary ammonium centers in the polymer. INCI has approved at least 40 different polymers under the polyquaternium designation. Different polymers are distinguished by the numerical value that follows the word "polyquaternium". Polyquaternium-5, polyquaternium-7, and polyquaternium-47 are three examples, each a chemically different type of polymer. The numbers are assigned in the order in which they are registered rather than because of their chemical structure. Polyquaterniums find particular application in conditioners, shampoo, hair mousse, hair spray, hair dye, personal lubricant, and contact lens solutions. Because they are positively charged, they neutralize the negative charges of most shampoos and hair proteins and help hair lie flat. Their positive charges also ionically bond them to hair and skin. Some have antimicrobial properties. List of Polyquaterniums: Polyquaternium Chemical Identity Polyquaternium-1: Ethanol, 2,2′,2″ -nitrilotris-, polymer with 1,4-dichloro-2-butene and N,N,N′,N′-tetramethyl-2-butene-1,4-diamine Polyquaternium-2: Poly[bis(2-chloroethyl) ether-alt-1,3-bis[3-(dimethylamino)propyl]urea] Polyquaternium-4: Hydroxyethyl cellulose dimethyl diallylammonium chloride copolymer; Diallyldimethylammonium chloride-hydroxyethyl cellulose copolymer Polyquaternium-5: Copolymer of acrylamide and quaternized dimethylammoniumethyl methacrylate Polyquaternium-6: Poly(diallyldimethylammonium chloride) Polyquaternium-7: Copolymer of acrylamide and diallyldimethylammonium chloride Polyquaternium-8 : Copolymer of methyl and stearyl dimethylaminoethyl ester of methacrylic acid, quaternized with dimethylsulphate[2] Polyquaternium-9 : Homopolymer of N,N-(dimethylamino)ethyl ester of methacrylic acid, quaternized with bromomethane Polyquaternium-10: Quaternized hydroxyethyl cellulose Polyquaternium-11: Copolymer of vinylpyrrolidone and quaternized dimethylaminoethyl methacrylate Polyquaternium-12: Ethyl methacrylate / abietyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-13: Ethyl methacrylate / oleyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-14: Trimethylaminoethylmethacrylate homopolymer Polyquaternium-15: Acrylamide-dimethylaminoethyl methacrylate methyl chloride copolymer Polyquaternium-16: Copolymer of vinylpyrrolidone and quaternized vinylimidazole Polyquaternium-17: Adipic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-18: Azelaic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-19: Copolymer of polyvinyl alcohol and 2,3-epoxypropylamine Polyquaternium-20 : Copolymer of polyvinyl octadecyl ether and 2,3-epoxypropylamine Polyquaternium-22: Copolymer of acrylic acid and diallyldimethylammonium Chloride Polyquaternium-24: Quaternary ammonium salt of hydroxyethyl cellulose reacted with a lauryl dimethyl ammonium substituted epoxide. Polyquaternium-27: Block copolymer of Polyquaternium-2 and Polyquaternium-17 Polyquaternium-28: Copolymer of vinylpyrrolidone and methacrylamidopropyl trimethylammonium Polyquaternium-29: Chitosan modified with propylen oxide and quaternized with epichlorhydrin Polyquaternium-30: Ethanaminium, N-(carboxymethyl)-N,N-dimethyl-2-[(2-methyl-1-oxo-2-propen-1-yl)oxy]-, inner salt, polymer with methyl 2-methyl-2-propenoate Polyquaternium-31: N,N- dimethylaminopropyl-N-acrylamidine quatemized with diethylsulfate bound to a block of polyacrylonitrile Polyquaternium-32: Poly(acrylamide 2-methacryloxyethyltrimethyl ammonium chloride) Polyquaternium-33: Copolymer of trimethylaminoethylacrylate salt and acrylamide Polyquaternium-34: Copolymer of 1,3-dibromopropane and N,N-diethyl-N′,N′-dimethyl-1,3-propanediamine Polyquaternium-35: Methosulphate of the copolymer of methacryloyloxyethyltrimethylammonium and of methacryloyloxyethyldimethylacetylammonium Polyquaternium-36: Copolymer of N,N-dimethylaminoethylmethacrylate and buthylmethacrylate, quaternized with dimethylsulphate Polyquaternium-37: Poly(2-methacryloxyethyltrimethylammonium chloride) Polyquaternium-39: Terpolymer of acrylic acid, acrylamide and diallyldimethylammonium Chloride Polyquaternium-42: Poly[oxyethylene(dimethylimino)ethylene (dimethylimino)ethylene dichloride] Polyquaternium-43: Copolymer of acrylamide, acrylamidopropyltrimonium chloride, 2-amidopropylacrylamide sulfonate and dimethylaminopropylamine Polyquaternium-44: 3-Methyl-1-vinylimidazolium methyl sulfate-N-vinylpyrrolidone copolymer Polyquaternium-45: Copolymer of (N-methyl-N-ethoxyglycine)methacrylate and N,N-dimethylaminoethylmethacrylate, quaternized with dimethyl sulphate Polyquaternium-46: Terpolymer of vinylcaprolactam, vinylpyrrolidone, and quaternized vinylimidazole Polyquaternium-47: Terpolymer of acrylic acid, methacrylamidopropyl trimethylammonium chloride, and methyl acrylate
POLYQUATERNIUM-68
polyquaternium 68; Copolymer of vinylpyrrolidinone, methacrylamide, vinylimidazole and quaternized vinylimidazole. cas no: 827346-45-2
POLYQUATERNIUM-69
Poly(acrylamide-co-diallyldimethylammonium chloride)P(AAm-co-DADMAC)Quaternium-41N; N-Dimethyl-N-2-propen-1-yl-2-propen-1-aminium chloride; polymer with 2-propenamideDimethyldiallyl ammonium chloride acrylamide copolymer
POLYQUATERNIUM-7
POLYQUATERNIUM-7; N° CAS : 26590-05-6; Origine(s) : Synthétique; Nom INCI : POLYQUATERNIUM-7. Classification : Ammonium quaternaire, Règlementé, Polymère de synthèse; Restriction en Europe : III/66; Ses fonctions (INCI). Antistatique : Réduit l'électricité statique en neutralisant la charge électrique sur une surface. Agent filmogène : Produit un film continu sur la peau, les cheveux ou les ongles. Polyquaternium is the International Nomenclature for Cosmetic Ingredients designation for several polycationic polymers that are used in the personal care industry. Polyquaternium is a neologism used to emphasize the presence of quaternary ammonium centers in the polymer. INCI has approved at least 40 different polymers under the polyquaternium designation. Different polymers are distinguished by the numerical value that follows the word "polyquaternium". Polyquaternium-5, polyquaternium-7, and polyquaternium-47 are three examples, each a chemically different type of polymer. The numbers are assigned in the order in which they are registered rather than because of their chemical structure. Polyquaterniums find particular application in conditioners, shampoo, hair mousse, hair spray, hair dye, personal lubricant, and contact lens solutions. Because they are positively charged, they neutralize the negative charges of most shampoos and hair proteins and help hair lie flat. Their positive charges also ionically bond them to hair and skin. Some have antimicrobial properties. List of Polyquaterniums: Polyquaternium Chemical Identity Polyquaternium-1: Ethanol, 2,2′,2″ -nitrilotris-, polymer with 1,4-dichloro-2-butene and N,N,N′,N′-tetramethyl-2-butene-1,4-diamine Polyquaternium-2: Poly[bis(2-chloroethyl) ether-alt-1,3-bis[3-(dimethylamino)propyl]urea] Polyquaternium-4: Hydroxyethyl cellulose dimethyl diallylammonium chloride copolymer; Diallyldimethylammonium chloride-hydroxyethyl cellulose copolymer Polyquaternium-5: Copolymer of acrylamide and quaternized dimethylammoniumethyl methacrylate Polyquaternium-6: Poly(diallyldimethylammonium chloride) Polyquaternium-7: Copolymer of acrylamide and diallyldimethylammonium chloride Polyquaternium-8 : Copolymer of methyl and stearyl dimethylaminoethyl ester of methacrylic acid, quaternized with dimethylsulphate[2] Polyquaternium-9 : Homopolymer of N,N-(dimethylamino)ethyl ester of methacrylic acid, quaternized with bromomethane Polyquaternium-10: Quaternized hydroxyethyl cellulose Polyquaternium-11: Copolymer of vinylpyrrolidone and quaternized dimethylaminoethyl methacrylate Polyquaternium-12: Ethyl methacrylate / abietyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-13: Ethyl methacrylate / oleyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-14: Trimethylaminoethylmethacrylate homopolymer Polyquaternium-15: Acrylamide-dimethylaminoethyl methacrylate methyl chloride copolymer Polyquaternium-16: Copolymer of vinylpyrrolidone and quaternized vinylimidazole Polyquaternium-17: Adipic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-18: Azelaic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-19: Copolymer of polyvinyl alcohol and 2,3-epoxypropylamine Polyquaternium-20 : Copolymer of polyvinyl octadecyl ether and 2,3-epoxypropylamine Polyquaternium-22: Copolymer of acrylic acid and diallyldimethylammonium Chloride Polyquaternium-24: Quaternary ammonium salt of hydroxyethyl cellulose reacted with a lauryl dimethyl ammonium substituted epoxide. Polyquaternium-27: Block copolymer of Polyquaternium-2 and Polyquaternium-17 Polyquaternium-28: Copolymer of vinylpyrrolidone and methacrylamidopropyl trimethylammonium Polyquaternium-29: Chitosan modified with propylen oxide and quaternized with epichlorhydrin Polyquaternium-30: Ethanaminium, N-(carboxymethyl)-N,N-dimethyl-2-[(2-methyl-1-oxo-2-propen-1-yl)oxy]-, inner salt, polymer with methyl 2-methyl-2-propenoate Polyquaternium-31: N,N- dimethylaminopropyl-N-acrylamidine quatemized with diethylsulfate bound to a block of polyacrylonitrile Polyquaternium-32: Poly(acrylamide 2-methacryloxyethyltrimethyl ammonium chloride) Polyquaternium-33: Copolymer of trimethylaminoethylacrylate salt and acrylamide Polyquaternium-34: Copolymer of 1,3-dibromopropane and N,N-diethyl-N′,N′-dimethyl-1,3-propanediamine Polyquaternium-35: Methosulphate of the copolymer of methacryloyloxyethyltrimethylammonium and of methacryloyloxyethyldimethylacetylammonium Polyquaternium-36: Copolymer of N,N-dimethylaminoethylmethacrylate and buthylmethacrylate, quaternized with dimethylsulphate Polyquaternium-37: Poly(2-methacryloxyethyltrimethylammonium chloride) Polyquaternium-39: Terpolymer of acrylic acid, acrylamide and diallyldimethylammonium Chloride Polyquaternium-42: Poly[oxyethylene(dimethylimino)ethylene (dimethylimino)ethylene dichloride] Polyquaternium-43: Copolymer of acrylamide, acrylamidopropyltrimonium chloride, 2-amidopropylacrylamide sulfonate and dimethylaminopropylamine Polyquaternium-44: 3-Methyl-1-vinylimidazolium methyl sulfate-N-vinylpyrrolidone copolymer Polyquaternium-45: Copolymer of (N-methyl-N-ethoxyglycine)methacrylate and N,N-dimethylaminoethylmethacrylate, quaternized with dimethyl sulphate Polyquaternium-46: Terpolymer of vinylcaprolactam, vinylpyrrolidone, and quaternized vinylimidazole Polyquaternium-47: Terpolymer of acrylic acid, methacrylamidopropyl trimethylammonium chloride, and methyl acrylate
POLYQUATERNIUM-70
POLYQUATERNIUM-72; Origine(s) : Synthétique; Nom INCI : POLYQUATERNIUM-72; Classification : Ammonium quaternaire, Polymère de synthèse. Ses fonctions (INCI); Antistatique : Réduit l'électricité statique en neutralisant la charge électrique sur une surface. Agent filmogène : Produit un film continu sur la peau, les cheveux ou les ongles Agent de fixation capillaire : Permet de contrôler le style du cheveu. Polyquaternium is the International Nomenclature for Cosmetic Ingredients designation for several polycationic polymers that are used in the personal care industry. Polyquaternium is a neologism used to emphasize the presence of quaternary ammonium centers in the polymer. INCI has approved at least 40 different polymers under the polyquaternium designation. Different polymers are distinguished by the numerical value that follows the word "polyquaternium". Polyquaternium-5, polyquaternium-7, and polyquaternium-47 are three examples, each a chemically different type of polymer. The numbers are assigned in the order in which they are registered rather than because of their chemical structure. Polyquaterniums find particular application in conditioners, shampoo, hair mousse, hair spray, hair dye, personal lubricant, and contact lens solutions. Because they are positively charged, they neutralize the negative charges of most shampoos and hair proteins and help hair lie flat. Their positive charges also ionically bond them to hair and skin. Some have antimicrobial properties. List of Polyquaterniums: Polyquaternium Chemical Identity Polyquaternium-1: Ethanol, 2,2′,2″ -nitrilotris-, polymer with 1,4-dichloro-2-butene and N,N,N′,N′-tetramethyl-2-butene-1,4-diamine Polyquaternium-2: Poly[bis(2-chloroethyl) ether-alt-1,3-bis[3-(dimethylamino)propyl]urea] Polyquaternium-4: Hydroxyethyl cellulose dimethyl diallylammonium chloride copolymer; Diallyldimethylammonium chloride-hydroxyethyl cellulose copolymer Polyquaternium-5: Copolymer of acrylamide and quaternized dimethylammoniumethyl methacrylate Polyquaternium-6: Poly(diallyldimethylammonium chloride) Polyquaternium-7: Copolymer of acrylamide and diallyldimethylammonium chloride Polyquaternium-8 : Copolymer of methyl and stearyl dimethylaminoethyl ester of methacrylic acid, quaternized with dimethylsulphate[2] Polyquaternium-9 : Homopolymer of N,N-(dimethylamino)ethyl ester of methacrylic acid, quaternized with bromomethane Polyquaternium-10: Quaternized hydroxyethyl cellulose Polyquaternium-11: Copolymer of vinylpyrrolidone and quaternized dimethylaminoethyl methacrylate Polyquaternium-12: Ethyl methacrylate / abietyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-13: Ethyl methacrylate / oleyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-14: Trimethylaminoethylmethacrylate homopolymer Polyquaternium-15: Acrylamide-dimethylaminoethyl methacrylate methyl chloride copolymer Polyquaternium-16: Copolymer of vinylpyrrolidone and quaternized vinylimidazole Polyquaternium-17: Adipic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-18: Azelaic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-19: Copolymer of polyvinyl alcohol and 2,3-epoxypropylamine Polyquaternium-20 : Copolymer of polyvinyl octadecyl ether and 2,3-epoxypropylamine Polyquaternium-22: Copolymer of acrylic acid and diallyldimethylammonium Chloride Polyquaternium-24: Quaternary ammonium salt of hydroxyethyl cellulose reacted with a lauryl dimethyl ammonium substituted epoxide. Polyquaternium-27: Block copolymer of Polyquaternium-2 and Polyquaternium-17 Polyquaternium-28: Copolymer of vinylpyrrolidone and methacrylamidopropyl trimethylammonium Polyquaternium-29: Chitosan modified with propylen oxide and quaternized with epichlorhydrin Polyquaternium-30: Ethanaminium, N-(carboxymethyl)-N,N-dimethyl-2-[(2-methyl-1-oxo-2-propen-1-yl)oxy]-, inner salt, polymer with methyl 2-methyl-2-propenoate Polyquaternium-31: N,N- dimethylaminopropyl-N-acrylamidine quatemized with diethylsulfate bound to a block of polyacrylonitrile Polyquaternium-32: Poly(acrylamide 2-methacryloxyethyltrimethyl ammonium chloride) Polyquaternium-33: Copolymer of trimethylaminoethylacrylate salt and acrylamide Polyquaternium-34: Copolymer of 1,3-dibromopropane and N,N-diethyl-N′,N′-dimethyl-1,3-propanediamine Polyquaternium-35: Methosulphate of the copolymer of methacryloyloxyethyltrimethylammonium and of methacryloyloxyethyldimethylacetylammonium Polyquaternium-36: Copolymer of N,N-dimethylaminoethylmethacrylate and buthylmethacrylate, quaternized with dimethylsulphate Polyquaternium-37: Poly(2-methacryloxyethyltrimethylammonium chloride) Polyquaternium-39: Terpolymer of acrylic acid, acrylamide and diallyldimethylammonium Chloride Polyquaternium-42: Poly[oxyethylene(dimethylimino)ethylene (dimethylimino)ethylene dichloride] Polyquaternium-43: Copolymer of acrylamide, acrylamidopropyltrimonium chloride, 2-amidopropylacrylamide sulfonate and dimethylaminopropylamine Polyquaternium-44: 3-Methyl-1-vinylimidazolium methyl sulfate-N-vinylpyrrolidone copolymer Polyquaternium-45: Copolymer of (N-methyl-N-ethoxyglycine)methacrylate and N,N-dimethylaminoethylmethacrylate, quaternized with dimethyl sulphate Polyquaternium-46: Terpolymer of vinylcaprolactam, vinylpyrrolidone, and quaternized vinylimidazole Polyquaternium-47: Terpolymer of acrylic acid, methacrylamidopropyl trimethylammonium chloride, and methyl acrylate
POLYQUATERNIUM-72
POLYQUATERNIUM-74; Origine(s) : Synthétique; Nom INCI : POLYQUATERNIUM-74; Classification : Ammonium quaternaire, Polymère de synthèse. Ses fonctions (INCI); Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance. Agent de fixation capillaire : Permet de contrôler le style du cheveu; Agent d'entretien de la peau : Maintient la peau en bon état. Polyquaternium is the International Nomenclature for Cosmetic Ingredients designation for several polycationic polymers that are used in the personal care industry. Polyquaternium is a neologism used to emphasize the presence of quaternary ammonium centers in the polymer. INCI has approved at least 40 different polymers under the polyquaternium designation. Different polymers are distinguished by the numerical value that follows the word "polyquaternium". Polyquaternium-5, polyquaternium-7, and polyquaternium-47 are three examples, each a chemically different type of polymer. The numbers are assigned in the order in which they are registered rather than because of their chemical structure. Polyquaterniums find particular application in conditioners, shampoo, hair mousse, hair spray, hair dye, personal lubricant, and contact lens solutions. Because they are positively charged, they neutralize the negative charges of most shampoos and hair proteins and help hair lie flat. Their positive charges also ionically bond them to hair and skin. Some have antimicrobial properties. List of Polyquaterniums: Polyquaternium Chemical Identity Polyquaternium-1: Ethanol, 2,2′,2″ -nitrilotris-, polymer with 1,4-dichloro-2-butene and N,N,N′,N′-tetramethyl-2-butene-1,4-diamine Polyquaternium-2: Poly[bis(2-chloroethyl) ether-alt-1,3-bis[3-(dimethylamino)propyl]urea] Polyquaternium-4: Hydroxyethyl cellulose dimethyl diallylammonium chloride copolymer; Diallyldimethylammonium chloride-hydroxyethyl cellulose copolymer Polyquaternium-5: Copolymer of acrylamide and quaternized dimethylammoniumethyl methacrylate Polyquaternium-6: Poly(diallyldimethylammonium chloride) Polyquaternium-7: Copolymer of acrylamide and diallyldimethylammonium chloride Polyquaternium-8 : Copolymer of methyl and stearyl dimethylaminoethyl ester of methacrylic acid, quaternized with dimethylsulphate[2] Polyquaternium-9 : Homopolymer of N,N-(dimethylamino)ethyl ester of methacrylic acid, quaternized with bromomethane Polyquaternium-10: Quaternized hydroxyethyl cellulose Polyquaternium-11: Copolymer of vinylpyrrolidone and quaternized dimethylaminoethyl methacrylate Polyquaternium-12: Ethyl methacrylate / abietyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-13: Ethyl methacrylate / oleyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-14: Trimethylaminoethylmethacrylate homopolymer Polyquaternium-15: Acrylamide-dimethylaminoethyl methacrylate methyl chloride copolymer Polyquaternium-16: Copolymer of vinylpyrrolidone and quaternized vinylimidazole Polyquaternium-17: Adipic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-18: Azelaic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-19: Copolymer of polyvinyl alcohol and 2,3-epoxypropylamine Polyquaternium-20 : Copolymer of polyvinyl octadecyl ether and 2,3-epoxypropylamine Polyquaternium-22: Copolymer of acrylic acid and diallyldimethylammonium Chloride Polyquaternium-24: Quaternary ammonium salt of hydroxyethyl cellulose reacted with a lauryl dimethyl ammonium substituted epoxide. Polyquaternium-27: Block copolymer of Polyquaternium-2 and Polyquaternium-17 Polyquaternium-28: Copolymer of vinylpyrrolidone and methacrylamidopropyl trimethylammonium Polyquaternium-29: Chitosan modified with propylen oxide and quaternized with epichlorhydrin Polyquaternium-30: Ethanaminium, N-(carboxymethyl)-N,N-dimethyl-2-[(2-methyl-1-oxo-2-propen-1-yl)oxy]-, inner salt, polymer with methyl 2-methyl-2-propenoate Polyquaternium-31: N,N- dimethylaminopropyl-N-acrylamidine quatemized with diethylsulfate bound to a block of polyacrylonitrile Polyquaternium-32: Poly(acrylamide 2-methacryloxyethyltrimethyl ammonium chloride) Polyquaternium-33: Copolymer of trimethylaminoethylacrylate salt and acrylamide Polyquaternium-34: Copolymer of 1,3-dibromopropane and N,N-diethyl-N′,N′-dimethyl-1,3-propanediamine Polyquaternium-35: Methosulphate of the copolymer of methacryloyloxyethyltrimethylammonium and of methacryloyloxyethyldimethylacetylammonium Polyquaternium-36: Copolymer of N,N-dimethylaminoethylmethacrylate and buthylmethacrylate, quaternized with dimethylsulphate Polyquaternium-37: Poly(2-methacryloxyethyltrimethylammonium chloride) Polyquaternium-39: Terpolymer of acrylic acid, acrylamide and diallyldimethylammonium Chloride Polyquaternium-42: Poly[oxyethylene(dimethylimino)ethylene (dimethylimino)ethylene dichloride] Polyquaternium-43: Copolymer of acrylamide, acrylamidopropyltrimonium chloride, 2-amidopropylacrylamide sulfonate and dimethylaminopropylamine Polyquaternium-44: 3-Methyl-1-vinylimidazolium methyl sulfate-N-vinylpyrrolidone copolymer Polyquaternium-45: Copolymer of (N-methyl-N-ethoxyglycine)methacrylate and N,N-dimethylaminoethylmethacrylate, quaternized with dimethyl sulphate Polyquaternium-46: Terpolymer of vinylcaprolactam, vinylpyrrolidone, and quaternized vinylimidazole Polyquaternium-47: Terpolymer of acrylic acid, methacrylamidopropyl trimethylammonium chloride, and methyl acrylate
POLYQUATERNIUM-74
POLYQUATERNIUM-75; Origine(s) : Synthétique; Nom INCI : POLYQUATERNIUM-75. Classification : Ammonium quaternaire, Polymère de synthèse. Ses fonctions (INCI): Antistatique : Réduit l'électricité statique en neutralisant la charge électrique sur une surface. Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile). Agent filmogène : Produit un film continu sur la peau, les cheveux ou les ongles. Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance. Agent d'entretien de la peau : Maintient la peau en bon état. Polyquaternium is the International Nomenclature for Cosmetic Ingredients designation for several polycationic polymers that are used in the personal care industry. Polyquaternium is a neologism used to emphasize the presence of quaternary ammonium centers in the polymer. INCI has approved at least 40 different polymers under the polyquaternium designation. Different polymers are distinguished by the numerical value that follows the word "polyquaternium". Polyquaternium-5, polyquaternium-7, and polyquaternium-47 are three examples, each a chemically different type of polymer. The numbers are assigned in the order in which they are registered rather than because of their chemical structure. Polyquaterniums find particular application in conditioners, shampoo, hair mousse, hair spray, hair dye, personal lubricant, and contact lens solutions. Because they are positively charged, they neutralize the negative charges of most shampoos and hair proteins and help hair lie flat. Their positive charges also ionically bond them to hair and skin. Some have antimicrobial properties. List of Polyquaterniums: Polyquaternium Chemical Identity Polyquaternium-1: Ethanol, 2,2′,2″ -nitrilotris-, polymer with 1,4-dichloro-2-butene and N,N,N′,N′-tetramethyl-2-butene-1,4-diamine Polyquaternium-2: Poly[bis(2-chloroethyl) ether-alt-1,3-bis[3-(dimethylamino)propyl]urea] Polyquaternium-4: Hydroxyethyl cellulose dimethyl diallylammonium chloride copolymer; Diallyldimethylammonium chloride-hydroxyethyl cellulose copolymer Polyquaternium-5: Copolymer of acrylamide and quaternized dimethylammoniumethyl methacrylate Polyquaternium-6: Poly(diallyldimethylammonium chloride) Polyquaternium-7: Copolymer of acrylamide and diallyldimethylammonium chloride Polyquaternium-8 : Copolymer of methyl and stearyl dimethylaminoethyl ester of methacrylic acid, quaternized with dimethylsulphate[2] Polyquaternium-9 : Homopolymer of N,N-(dimethylamino)ethyl ester of methacrylic acid, quaternized with bromomethane Polyquaternium-10: Quaternized hydroxyethyl cellulose Polyquaternium-11: Copolymer of vinylpyrrolidone and quaternized dimethylaminoethyl methacrylate Polyquaternium-12: Ethyl methacrylate / abietyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-13: Ethyl methacrylate / oleyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-14: Trimethylaminoethylmethacrylate homopolymer Polyquaternium-15: Acrylamide-dimethylaminoethyl methacrylate methyl chloride copolymer Polyquaternium-16: Copolymer of vinylpyrrolidone and quaternized vinylimidazole Polyquaternium-17: Adipic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-18: Azelaic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-19: Copolymer of polyvinyl alcohol and 2,3-epoxypropylamine Polyquaternium-20 : Copolymer of polyvinyl octadecyl ether and 2,3-epoxypropylamine Polyquaternium-22: Copolymer of acrylic acid and diallyldimethylammonium Chloride Polyquaternium-24: Quaternary ammonium salt of hydroxyethyl cellulose reacted with a lauryl dimethyl ammonium substituted epoxide. Polyquaternium-27: Block copolymer of Polyquaternium-2 and Polyquaternium-17 Polyquaternium-28: Copolymer of vinylpyrrolidone and methacrylamidopropyl trimethylammonium Polyquaternium-29: Chitosan modified with propylen oxide and quaternized with epichlorhydrin Polyquaternium-30: Ethanaminium, N-(carboxymethyl)-N,N-dimethyl-2-[(2-methyl-1-oxo-2-propen-1-yl)oxy]-, inner salt, polymer with methyl 2-methyl-2-propenoate Polyquaternium-31: N,N- dimethylaminopropyl-N-acrylamidine quatemized with diethylsulfate bound to a block of polyacrylonitrile Polyquaternium-32: Poly(acrylamide 2-methacryloxyethyltrimethyl ammonium chloride) Polyquaternium-33: Copolymer of trimethylaminoethylacrylate salt and acrylamide Polyquaternium-34: Copolymer of 1,3-dibromopropane and N,N-diethyl-N′,N′-dimethyl-1,3-propanediamine Polyquaternium-35: Methosulphate of the copolymer of methacryloyloxyethyltrimethylammonium and of methacryloyloxyethyldimethylacetylammonium Polyquaternium-36: Copolymer of N,N-dimethylaminoethylmethacrylate and buthylmethacrylate, quaternized with dimethylsulphate Polyquaternium-37: Poly(2-methacryloxyethyltrimethylammonium chloride) Polyquaternium-39: Terpolymer of acrylic acid, acrylamide and diallyldimethylammonium Chloride Polyquaternium-42: Poly[oxyethylene(dimethylimino)ethylene (dimethylimino)ethylene dichloride] Polyquaternium-43: Copolymer of acrylamide, acrylamidopropyltrimonium chloride, 2-amidopropylacrylamide sulfonate and dimethylaminopropylamine Polyquaternium-44: 3-Methyl-1-vinylimidazolium methyl sulfate-N-vinylpyrrolidone copolymer Polyquaternium-45: Copolymer of (N-methyl-N-ethoxyglycine)methacrylate and N,N-dimethylaminoethylmethacrylate, quaternized with dimethyl sulphate Polyquaternium-46: Terpolymer of vinylcaprolactam, vinylpyrrolidone, and quaternized vinylimidazole Polyquaternium-47: Terpolymer of acrylic acid, methacrylamidopropyl trimethylammonium chloride, and methyl acrylate
POLYQUATERNIUM-75
POLYQUATERNIUM-76; Origine(s) : Synthétique; Nom INCI : POLYQUATERNIUM-76; Classification : Ammonium quaternaire, Polymère de synthèse. Ses fonctions (INCI); Antistatique : Réduit l'électricité statique en neutralisant la charge électrique sur une surface; Agent filmogène : Produit un film continu sur la peau, les cheveux ou les ongles. Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance. Agent de fixation capillaire : Permet de contrôler le style du cheveu. Polyquaternium is the International Nomenclature for Cosmetic Ingredients designation for several polycationic polymers that are used in the personal care industry. Polyquaternium is a neologism used to emphasize the presence of quaternary ammonium centers in the polymer. INCI has approved at least 40 different polymers under the polyquaternium designation. Different polymers are distinguished by the numerical value that follows the word "polyquaternium". Polyquaternium-5, polyquaternium-7, and polyquaternium-47 are three examples, each a chemically different type of polymer. The numbers are assigned in the order in which they are registered rather than because of their chemical structure. Polyquaterniums find particular application in conditioners, shampoo, hair mousse, hair spray, hair dye, personal lubricant, and contact lens solutions. Because they are positively charged, they neutralize the negative charges of most shampoos and hair proteins and help hair lie flat. Their positive charges also ionically bond them to hair and skin. Some have antimicrobial properties. List of Polyquaterniums: Polyquaternium Chemical Identity Polyquaternium-1: Ethanol, 2,2′,2″ -nitrilotris-, polymer with 1,4-dichloro-2-butene and N,N,N′,N′-tetramethyl-2-butene-1,4-diamine Polyquaternium-2: Poly[bis(2-chloroethyl) ether-alt-1,3-bis[3-(dimethylamino)propyl]urea] Polyquaternium-4: Hydroxyethyl cellulose dimethyl diallylammonium chloride copolymer; Diallyldimethylammonium chloride-hydroxyethyl cellulose copolymer Polyquaternium-5: Copolymer of acrylamide and quaternized dimethylammoniumethyl methacrylate Polyquaternium-6: Poly(diallyldimethylammonium chloride) Polyquaternium-7: Copolymer of acrylamide and diallyldimethylammonium chloride Polyquaternium-8 : Copolymer of methyl and stearyl dimethylaminoethyl ester of methacrylic acid, quaternized with dimethylsulphate[2] Polyquaternium-9 : Homopolymer of N,N-(dimethylamino)ethyl ester of methacrylic acid, quaternized with bromomethane Polyquaternium-10: Quaternized hydroxyethyl cellulose Polyquaternium-11: Copolymer of vinylpyrrolidone and quaternized dimethylaminoethyl methacrylate Polyquaternium-12: Ethyl methacrylate / abietyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-13: Ethyl methacrylate / oleyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-14: Trimethylaminoethylmethacrylate homopolymer Polyquaternium-15: Acrylamide-dimethylaminoethyl methacrylate methyl chloride copolymer Polyquaternium-16: Copolymer of vinylpyrrolidone and quaternized vinylimidazole Polyquaternium-17: Adipic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-18: Azelaic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-19: Copolymer of polyvinyl alcohol and 2,3-epoxypropylamine Polyquaternium-20 : Copolymer of polyvinyl octadecyl ether and 2,3-epoxypropylamine Polyquaternium-22: Copolymer of acrylic acid and diallyldimethylammonium Chloride Polyquaternium-24: Quaternary ammonium salt of hydroxyethyl cellulose reacted with a lauryl dimethyl ammonium substituted epoxide. Polyquaternium-27: Block copolymer of Polyquaternium-2 and Polyquaternium-17 Polyquaternium-28: Copolymer of vinylpyrrolidone and methacrylamidopropyl trimethylammonium Polyquaternium-29: Chitosan modified with propylen oxide and quaternized with epichlorhydrin Polyquaternium-30: Ethanaminium, N-(carboxymethyl)-N,N-dimethyl-2-[(2-methyl-1-oxo-2-propen-1-yl)oxy]-, inner salt, polymer with methyl 2-methyl-2-propenoate Polyquaternium-31: N,N- dimethylaminopropyl-N-acrylamidine quatemized with diethylsulfate bound to a block of polyacrylonitrile Polyquaternium-32: Poly(acrylamide 2-methacryloxyethyltrimethyl ammonium chloride) Polyquaternium-33: Copolymer of trimethylaminoethylacrylate salt and acrylamide Polyquaternium-34: Copolymer of 1,3-dibromopropane and N,N-diethyl-N′,N′-dimethyl-1,3-propanediamine Polyquaternium-35: Methosulphate of the copolymer of methacryloyloxyethyltrimethylammonium and of methacryloyloxyethyldimethylacetylammonium Polyquaternium-36: Copolymer of N,N-dimethylaminoethylmethacrylate and buthylmethacrylate, quaternized with dimethylsulphate Polyquaternium-37: Poly(2-methacryloxyethyltrimethylammonium chloride) Polyquaternium-39: Terpolymer of acrylic acid, acrylamide and diallyldimethylammonium Chloride Polyquaternium-42: Poly[oxyethylene(dimethylimino)ethylene (dimethylimino)ethylene dichloride] Polyquaternium-43: Copolymer of acrylamide, acrylamidopropyltrimonium chloride, 2-amidopropylacrylamide sulfonate and dimethylaminopropylamine Polyquaternium-44: 3-Methyl-1-vinylimidazolium methyl sulfate-N-vinylpyrrolidone copolymer Polyquaternium-45: Copolymer of (N-methyl-N-ethoxyglycine)methacrylate and N,N-dimethylaminoethylmethacrylate, quaternized with dimethyl sulphate Polyquaternium-46: Terpolymer of vinylcaprolactam, vinylpyrrolidone, and quaternized vinylimidazole Polyquaternium-47: Terpolymer of acrylic acid, methacrylamidopropyl trimethylammonium chloride, and methyl acrylate
POLYQUATERNIUM-76
POLYQUATERNIUM-8; Origine(s) : Synthétique; Nom INCI : POLYQUATERNIUM-8. Classification : Ammonium quaternaire, Polymère de synthèse. Ses fonctions (INCI); Antistatique : Réduit l'électricité statique en neutralisant la charge électrique sur une surface; Agent filmogène : Produit un film continu sur la peau, les cheveux ou les ongles. Polyquaternium is the International Nomenclature for Cosmetic Ingredients designation for several polycationic polymers that are used in the personal care industry. Polyquaternium is a neologism used to emphasize the presence of quaternary ammonium centers in the polymer. INCI has approved at least 40 different polymers under the polyquaternium designation. Different polymers are distinguished by the numerical value that follows the word "polyquaternium". Polyquaternium-5, polyquaternium-7, and polyquaternium-47 are three examples, each a chemically different type of polymer. The numbers are assigned in the order in which they are registered rather than because of their chemical structure. Polyquaterniums find particular application in conditioners, shampoo, hair mousse, hair spray, hair dye, personal lubricant, and contact lens solutions. Because they are positively charged, they neutralize the negative charges of most shampoos and hair proteins and help hair lie flat. Their positive charges also ionically bond them to hair and skin. Some have antimicrobial properties. List of Polyquaterniums: Polyquaternium Chemical Identity Polyquaternium-1: Ethanol, 2,2′,2″ -nitrilotris-, polymer with 1,4-dichloro-2-butene and N,N,N′,N′-tetramethyl-2-butene-1,4-diamine Polyquaternium-2: Poly[bis(2-chloroethyl) ether-alt-1,3-bis[3-(dimethylamino)propyl]urea] Polyquaternium-4: Hydroxyethyl cellulose dimethyl diallylammonium chloride copolymer; Diallyldimethylammonium chloride-hydroxyethyl cellulose copolymer Polyquaternium-5: Copolymer of acrylamide and quaternized dimethylammoniumethyl methacrylate Polyquaternium-6: Poly(diallyldimethylammonium chloride) Polyquaternium-7: Copolymer of acrylamide and diallyldimethylammonium chloride Polyquaternium-8 : Copolymer of methyl and stearyl dimethylaminoethyl ester of methacrylic acid, quaternized with dimethylsulphate[2] Polyquaternium-9 : Homopolymer of N,N-(dimethylamino)ethyl ester of methacrylic acid, quaternized with bromomethane Polyquaternium-10: Quaternized hydroxyethyl cellulose Polyquaternium-11: Copolymer of vinylpyrrolidone and quaternized dimethylaminoethyl methacrylate Polyquaternium-12: Ethyl methacrylate / abietyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-13: Ethyl methacrylate / oleyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-14: Trimethylaminoethylmethacrylate homopolymer Polyquaternium-15: Acrylamide-dimethylaminoethyl methacrylate methyl chloride copolymer Polyquaternium-16: Copolymer of vinylpyrrolidone and quaternized vinylimidazole Polyquaternium-17: Adipic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-18: Azelaic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-19: Copolymer of polyvinyl alcohol and 2,3-epoxypropylamine Polyquaternium-20 : Copolymer of polyvinyl octadecyl ether and 2,3-epoxypropylamine Polyquaternium-22: Copolymer of acrylic acid and diallyldimethylammonium Chloride Polyquaternium-24: Quaternary ammonium salt of hydroxyethyl cellulose reacted with a lauryl dimethyl ammonium substituted epoxide. Polyquaternium-27: Block copolymer of Polyquaternium-2 and Polyquaternium-17 Polyquaternium-28: Copolymer of vinylpyrrolidone and methacrylamidopropyl trimethylammonium Polyquaternium-29: Chitosan modified with propylen oxide and quaternized with epichlorhydrin Polyquaternium-30: Ethanaminium, N-(carboxymethyl)-N,N-dimethyl-2-[(2-methyl-1-oxo-2-propen-1-yl)oxy]-, inner salt, polymer with methyl 2-methyl-2-propenoate Polyquaternium-31: N,N- dimethylaminopropyl-N-acrylamidine quatemized with diethylsulfate bound to a block of polyacrylonitrile Polyquaternium-32: Poly(acrylamide 2-methacryloxyethyltrimethyl ammonium chloride) Polyquaternium-33: Copolymer of trimethylaminoethylacrylate salt and acrylamide Polyquaternium-34: Copolymer of 1,3-dibromopropane and N,N-diethyl-N′,N′-dimethyl-1,3-propanediamine Polyquaternium-35: Methosulphate of the copolymer of methacryloyloxyethyltrimethylammonium and of methacryloyloxyethyldimethylacetylammonium Polyquaternium-36: Copolymer of N,N-dimethylaminoethylmethacrylate and buthylmethacrylate, quaternized with dimethylsulphate Polyquaternium-37: Poly(2-methacryloxyethyltrimethylammonium chloride) Polyquaternium-39: Terpolymer of acrylic acid, acrylamide and diallyldimethylammonium Chloride Polyquaternium-42: Poly[oxyethylene(dimethylimino)ethylene (dimethylimino)ethylene dichloride] Polyquaternium-43: Copolymer of acrylamide, acrylamidopropyltrimonium chloride, 2-amidopropylacrylamide sulfonate and dimethylaminopropylamine Polyquaternium-44: 3-Methyl-1-vinylimidazolium methyl sulfate-N-vinylpyrrolidone copolymer Polyquaternium-45: Copolymer of (N-methyl-N-ethoxyglycine)methacrylate and N,N-dimethylaminoethylmethacrylate, quaternized with dimethyl sulphate Polyquaternium-46: Terpolymer of vinylcaprolactam, vinylpyrrolidone, and quaternized vinylimidazole Polyquaternium-47: Terpolymer of acrylic acid, methacrylamidopropyl trimethylammonium chloride, and methyl acrylate
POLYQUATERNIUM-8
POLYQUATERNIUM-87; Origine(s) : Synthétique; Nom INCI : POLYQUATERNIUM-87; Classification : Ammonium quaternaire, Polymère de synthèse. Ses fonctions (INCI). Agent filmogène : Produit un film continu sur la peau, les cheveux ou les ongles. Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance Agent de fixation capillaire : Permet de contrôler le style du cheveu. Polyquaternium is the International Nomenclature for Cosmetic Ingredients designation for several polycationic polymers that are used in the personal care industry. Polyquaternium is a neologism used to emphasize the presence of quaternary ammonium centers in the polymer. INCI has approved at least 40 different polymers under the polyquaternium designation. Different polymers are distinguished by the numerical value that follows the word "polyquaternium". Polyquaternium-5, polyquaternium-7, and polyquaternium-47 are three examples, each a chemically different type of polymer. The numbers are assigned in the order in which they are registered rather than because of their chemical structure. Polyquaterniums find particular application in conditioners, shampoo, hair mousse, hair spray, hair dye, personal lubricant, and contact lens solutions. Because they are positively charged, they neutralize the negative charges of most shampoos and hair proteins and help hair lie flat. Their positive charges also ionically bond them to hair and skin. Some have antimicrobial properties. List of Polyquaterniums: Polyquaternium Chemical Identity Polyquaternium-1: Ethanol, 2,2′,2″ -nitrilotris-, polymer with 1,4-dichloro-2-butene and N,N,N′,N′-tetramethyl-2-butene-1,4-diamine Polyquaternium-2: Poly[bis(2-chloroethyl) ether-alt-1,3-bis[3-(dimethylamino)propyl]urea] Polyquaternium-4: Hydroxyethyl cellulose dimethyl diallylammonium chloride copolymer; Diallyldimethylammonium chloride-hydroxyethyl cellulose copolymer Polyquaternium-5: Copolymer of acrylamide and quaternized dimethylammoniumethyl methacrylate Polyquaternium-6: Poly(diallyldimethylammonium chloride) Polyquaternium-7: Copolymer of acrylamide and diallyldimethylammonium chloride Polyquaternium-8 : Copolymer of methyl and stearyl dimethylaminoethyl ester of methacrylic acid, quaternized with dimethylsulphate[2] Polyquaternium-9 : Homopolymer of N,N-(dimethylamino)ethyl ester of methacrylic acid, quaternized with bromomethane Polyquaternium-10: Quaternized hydroxyethyl cellulose Polyquaternium-11: Copolymer of vinylpyrrolidone and quaternized dimethylaminoethyl methacrylate Polyquaternium-12: Ethyl methacrylate / abietyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-13: Ethyl methacrylate / oleyl methacrylate / diethylaminoethyl methacrylate copolymer quaternized with dimethyl sulfate Polyquaternium-14: Trimethylaminoethylmethacrylate homopolymer Polyquaternium-15: Acrylamide-dimethylaminoethyl methacrylate methyl chloride copolymer Polyquaternium-16: Copolymer of vinylpyrrolidone and quaternized vinylimidazole Polyquaternium-17: Adipic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-18: Azelaic acid, dimethylaminopropylamine and dichloroethylether copolymer Polyquaternium-19: Copolymer of polyvinyl alcohol and 2,3-epoxypropylamine Polyquaternium-20 : Copolymer of polyvinyl octadecyl ether and 2,3-epoxypropylamine Polyquaternium-22: Copolymer of acrylic acid and diallyldimethylammonium Chloride Polyquaternium-24: Quaternary ammonium salt of hydroxyethyl cellulose reacted with a lauryl dimethyl ammonium substituted epoxide. Polyquaternium-27: Block copolymer of Polyquaternium-2 and Polyquaternium-17 Polyquaternium-28: Copolymer of vinylpyrrolidone and methacrylamidopropyl trimethylammonium Polyquaternium-29: Chitosan modified with propylen oxide and quaternized with epichlorhydrin Polyquaternium-30: Ethanaminium, N-(carboxymethyl)-N,N-dimethyl-2-[(2-methyl-1-oxo-2-propen-1-yl)oxy]-, inner salt, polymer with methyl 2-methyl-2-propenoate Polyquaternium-31: N,N- dimethylaminopropyl-N-acrylamidine quatemized with diethylsulfate bound to a block of polyacrylonitrile Polyquaternium-32: Poly(acrylamide 2-methacryloxyethyltrimethyl ammonium chloride) Polyquaternium-33: Copolymer of trimethylaminoethylacrylate salt and acrylamide Polyquaternium-34: Copolymer of 1,3-dibromopropane and N,N-diethyl-N′,N′-dimethyl-1,3-propanediamine Polyquaternium-35: Methosulphate of the copolymer of methacryloyloxyethyltrimethylammonium and of methacryloyloxyethyldimethylacetylammonium Polyquaternium-36: Copolymer of N,N-dimethylaminoethylmethacrylate and buthylmethacrylate, quaternized with dimethylsulphate Polyquaternium-37: Poly(2-methacryloxyethyltrimethylammonium chloride) Polyquaternium-39: Terpolymer of acrylic acid, acrylamide and diallyldimethylammonium Chloride Polyquaternium-42: Poly[oxyethylene(dimethylimino)ethylene (dimethylimino)ethylene dichloride] Polyquaternium-43: Copolymer of acrylamide, acrylamidopropyltrimonium chloride, 2-amidopropylacrylamide sulfonate and dimethylaminopropylamine Polyquaternium-44: 3-Methyl-1-vinylimidazolium methyl sulfate-N-vinylpyrrolidone copolymer Polyquaternium-45: Copolymer of (N-methyl-N-ethoxyglycine)methacrylate and N,N-dimethylaminoethylmethacrylate, quaternized with dimethyl sulphate Polyquaternium-46: Terpolymer of vinylcaprolactam, vinylpyrrolidone, and quaternized vinylimidazole Polyquaternium-47: Terpolymer of acrylic acid, methacrylamidopropyl trimethylammonium chloride, and methyl acrylate
POLYQUATERNIUM-87
polyquaternium; Polymer JR; Quaternium-19; 2-(2-Hydroxy-3-(trimethylammonio)propoxy) ethyl cellulose, chloride; Cellulose, omega-ether with ethoxylated 2-hydroxy-3-(trimethylammonio)propanol, chloride; Hydroxyethylcellulose ethoxylate, quaternized; cas no: 68610-92-4; 81859-24-7
Polyquaternium-11 (PQ-11)

Polyquaternium-11 (PQ-11) (PQ-11) is a cationic polymer that is commonly used in various personal care and cosmetic products.
Polyquaternium-11 (PQ-11) belongs to the class of quaternary ammonium compounds and is known for its conditioning properties.

CAS number: 53633-54-8
EC number: 258-940-9

Polyquaternium-11, PQ-11, Poly(diallyldimethylammonium chloride), Poly(diallyldimethylammonium) chloride, Poly(diallyldimethylammonium) chloride homopolymer, Poly(diallyldimethylammonium chloride) homopolymer, Poly(diallylammonium chloride), Poly(quaternium-11), Quaternium-11, Diallyl dimethyl ammonium chloride polymer, Polyquaternium chloride, Poly(dimethylaminoethyl methacrylate), Polycat 11, Gafquat 755N, Cat 11, Merquat 100, Merquat 550, Merquat S, Polyquart L, Catavquaternium, Catavquatermium, Cosmedia Polymer HSP 1180, Euperquat DP 75, Gafquat 100, Gafquat 1126, Gafquat 734, Gafquat HS, Gafquat HS 100, Gafquat HS 100 PG, Gafquat HS 100PPG, Gafquat HS-100, Gafquat HS-100P, Gafquat HS-100PPG, Gafquat HS-100PVP, Gafquat HS-100VP, Gafquat HS-100W, Gafquat HS-2, Gafquat HS-300, Gafquat HS-300PG, Gafquat HS-400, Gafquat HS-400P, Gafquat HS-400PG, Gafquat HS-400PPG, Gafquat HS-500, Gafquat HS-500PG, Gafquat HS-500PVP, Gafquat HS-500VP, Gafquat HS-600, Gafquat HS-600PG, Gafquat HS-600PVP, Gafquat HS-600VP, Gafquat HS-700, Gafquat HS-700PG, Gafquat HS-700PVP, Gafquat HS-700VP, Gafquat HS-800, Gafquat HS-800PG, Gafquat HS-800PVP, Gafquat HS-800VP, Gafquat HS-900, Gafquat HS-900PG, Gafquat HS-900PVP, Gafquat HS-900VP.



APPLICATIONS


Polyquaternium-11 (PQ-11) forms a thin film on the hair shaft, providing protection and shine.
Polyquaternium-11 (PQ-11) reduces static electricity and frizz, leaving hair smooth and silky.

In skincare products, Polyquaternium-11 (PQ-11) offers moisturizing benefits.
Polyquaternium-11 (PQ-11) forms a protective barrier on the skin, helping to retain moisture.
Polyquaternium-11 (PQ-11) enhances the spreadability and texture of formulations.

Polyquaternium-11 (PQ-11) is often found in shampoos, conditioners, and hair styling products.
Polyquaternium-11 (PQ-11) can be used in leave-in treatments and hair masks.

Polyquaternium-11 (PQ-11) improves the detangling properties of hair products.
Polyquaternium-11 (PQ-11) helps to repair damaged hair and prevent breakage.
In skincare, Polyquaternium-11 (PQ-11) provides a smooth, soft feel.
Polyquaternium-11 (PQ-11) is compatible with other cosmetic ingredients and additives.

Polyquaternium-11 (PQ-11) is widely used in hair care products such as shampoos and conditioners.
Polyquaternium-11 (PQ-11) helps to detangle hair, making it easier to comb and style.

Polyquaternium-11 (PQ-11) enhances the shine and smoothness of hair, leaving it looking healthy and vibrant.
Polyquaternium-11 (PQ-11) provides long-lasting conditioning effects, even after rinsing.

Polyquaternium-11 (PQ-11) helps to reduce static electricity in hair, preventing frizz and flyaways.
In hair styling products, Polyquaternium-11 (PQ-11) improves hold and manageability.
Polyquaternium-11 (PQ-11) can be found in mousses, gels, and styling creams.

Polyquaternium-11 (PQ-11) also offers thermal protection, shielding hair from heat damage caused by styling tools.
Polyquaternium-11 (PQ-11) helps to repair and strengthen damaged hair, reducing breakage and split ends.

In skincare products, Polyquaternium-11 (PQ-11) provides moisturizing benefits.
Polyquaternium-11 (PQ-11) forms a protective barrier on the skin, preventing moisture loss.

Polyquaternium-11 (PQ-11) can be found in moisturizers, lotions, and creams.
Polyquaternium-11 (PQ-11) enhances the spreadability and texture of skincare formulations.

Polyquaternium-11 (PQ-11) improves the sensory experience of skincare products, leaving the skin feeling soft and smooth.
Polyquaternium-11 (PQ-11) is compatible with other skincare ingredients such as emollients and humectants.
Polyquaternium-11 (PQ-11) can be used in sunscreens to provide water resistance and skin conditioning properties.

In hair color products, Polyquaternium-11 (PQ-11) helps to improve color retention and vibrancy.
Polyquaternium-11 (PQ-11) can be found in permanent hair dyes, semi-permanent colors, and hair toners.

Polyquaternium-11 (PQ-11) enhances the adherence of color molecules to the hair shaft, ensuring even coverage and long-lasting results.
In leave-in treatments, Polyquaternium-11 (PQ-11) provides additional conditioning benefits between washes.

Polyquaternium-11 (PQ-11) can be used in hair masks, serums, and leave-in conditioners.
Polyquaternium-11 (PQ-11) helps to protect hair from environmental damage such as UV radiation and pollution.

Polyquaternium-11 (PQ-11) is suitable for use in a wide range of hair types, including dry, damaged, and color-treated hair.
Polyquaternium-11 (PQ-11) is valued for its versatility and effectiveness in various personal care products.
Polyquaternium-11 (PQ-11) is a key ingredient in salon-quality formulations, providing professional-level results for consumers.

Polyquaternium-11 (PQ-11) is commonly used in hair serums and leave-in conditioners to provide ongoing nourishment and protection.
Polyquaternium-11 (PQ-11) helps to smooth the hair cuticle, reducing friction and preventing tangling.
Polyquaternium-11 (PQ-11) is often incorporated into hair masks and treatments for deep conditioning and repair.

Polyquaternium-11 (PQ-11) can be found in hair sprays to provide flexible hold and humidity resistance.
Polyquaternium-11 (PQ-11) enhances the performance of hair volumizing products, giving hair body and fullness.

In hair straightening treatments, this polymer helps to maintain smoothness and manageability.
Polyquaternium-11 (PQ-11) is used in hair relaxers to soften and loosen curls or waves.

Polyquaternium-11 (PQ-11) is added to hair mousses to provide lightweight hold and texture.
Polyquaternium-11 (PQ-11) is suitable for use in children's hair care products, offering gentle conditioning and detangling benefits.

Polyquaternium-11 (PQ-11) is used in pet grooming products such as shampoos and conditioners to improve the appearance and feel of pet hair.
Polyquaternium-11 (PQ-11) enhances the performance of styling waxes and pomades, providing a glossy finish and definition.
Polyquaternium-11 (PQ-11) can be found in beard grooming products such as beard oils and balms to soften and condition facial hair.

Polyquaternium-11 (PQ-11) is used in hair color removers to help lift color molecules from the hair shaft.
Polyquaternium-11 (PQ-11) can be added to hair tonics and scalp treatments to soothe and moisturize the scalp.

Polyquaternium-11 (PQ-11) enhances the efficacy of anti-dandruff shampoos, helping to reduce flakiness and itchiness.
Polyquaternium-11 (PQ-11) can be incorporated into hair repair treatments for chemically damaged or over-processed hair.
Polyquaternium-11 (PQ-11) is used in hair styling clays and pastes to provide flexible hold and texture without stiffness.

Polyquaternium-11 (PQ-11) can be found in hair thickeners and volumizing sprays to create the appearance of thicker, fuller hair.
Polyquaternium-11 (PQ-11) enhances the performance of hair texturizers and beach wave sprays, giving hair a tousled, natural look.

Polyquaternium-11 (PQ-11) can be used in hair primers and pre-styling treatments to protect against heat damage and improve styling results.
Polyquaternium-11 (PQ-11) is added to hair fragrances and mists to provide long-lasting fragrance and conditioning benefits.

Polyquaternium-11 (PQ-11) can be incorporated into hair glosses and shine sprays to enhance the luster and radiance of hair.
Polyquaternium-11 (PQ-11) is used in hair repair masks and treatments to strengthen and fortify damaged hair fibers.

Polyquaternium-11 (PQ-11) can be found in hair detanglers and leave-in sprays to ease combing and prevent breakage.
Polyquaternium-11 (PQ-11) is a versatile ingredient that contributes to the efficacy and performance of a wide range of hair care products, providing consumers with healthy, beautiful hair.



DESCRIPTION


Polyquaternium-11 (PQ-11) (PQ-11) is a cationic polymer that is commonly used in various personal care and cosmetic products.
Polyquaternium-11 (PQ-11) belongs to the class of quaternary ammonium compounds and is known for its conditioning properties.

Polyquaternium-11 (PQ-11) is synthesized from diallyldimethylammonium chloride monomers through polymerization processes.
Polyquaternium-11 (PQ-11) is water-soluble and forms clear solutions.
PQ-11 carries a positive charge due to the presence of quaternary ammonium groups, which allows it to interact with negatively charged surfaces such as hair and skin.

In hair care products, Polyquaternium-11 (PQ-11) helps to improve manageability, reduce static, and enhance shine.
Polyquaternium-11 (PQ-11) forms a thin film on the hair shaft, providing protection and conditioning effects.
Polyquaternium-11 (PQ-11) is often found in shampoos, conditioners, hair styling products, and treatments.

Polyquaternium-11 (PQ-11) is a cationic polymer commonly used in cosmetic formulations.
Polyquaternium-11 (PQ-11) is a versatile ingredient known for its conditioning properties.

Polyquaternium-11 (PQ-11) is derived from diallyldimethylammonium chloride monomers.
Polyquaternium-11 (PQ-11) is soluble in water and forms clear solutions.

Polyquaternium-11 (PQ-11) has a high affinity for hair and skin, making it an effective conditioning agent.
Polyquaternium-11 (PQ-11) helps to improve the manageability and appearance of hair.



PROPERTIES


Physical Properties:

Appearance: Polyquaternium-11 (PQ-11) typically appears as a clear to slightly opaque viscous liquid or solid.
Color: Colorless to pale yellow.
Odor: Generally odorless or has a mild characteristic odor.
Texture: Viscous and smooth.
Solubility: Polyquaternium-11 (PQ-11) is soluble in water and forms clear solutions.
pH: Typically alkaline in aqueous solutions, with pH values ranging from 5 to 9.
Density: The density of Polyquaternium-11 (PQ-11) solutions can vary depending on concentration, typically ranging from 1.0 to 1.2 g/cm³.
Melting Point: Polyquaternium-11 (PQ-11) may not have a distinct melting point as it is often in liquid form, but it can solidify at lower temperatures.
Boiling Point: Not applicable as Polyquaternium-11 (PQ-11) decomposes before boiling.
Viscosity: Polyquaternium-11 (PQ-11) solutions exhibit high viscosity, contributing to its ability to form films and provide conditioning effects.
Refractive Index: The refractive index of Polyquaternium-11 (PQ-11) solutions can vary depending on concentration and temperature.
Molecular Weight: The average molecular weight of Polyquaternium-11 (PQ-11) typically ranges from several thousand to tens of thousands Daltons.


Chemical Properties:

Chemical Formula: The chemical structure of Polyquaternium-11 (PQ-11) consists of repeating units of diallyldimethylammonium chloride (DADMAC) monomers.
Molecular Structure: Polyquaternium-11 (PQ-11) is a cationic polymer composed of quaternary ammonium groups.
CAS Number: 53633-54-8
EC Number: 258-940-9
Polymerization: Polyquaternium-11 (PQ-11) is typically produced via free-radical polymerization of DADMAC monomers in the presence of initiators and catalysts.
Charge: Polyquaternium-11 (PQ-11) carries a positive charge due to the presence of quaternary ammonium groups, making it cationic.
Ionic Character: Polyquaternium-11 (PQ-11) is highly ionized in aqueous solutions, contributing to its affinity for negatively charged surfaces such as hair and skin.
Stability: Polyquaternium-11 (PQ-11) is stable under normal storage and handling conditions, but it may degrade upon exposure to extreme heat, light, or pH extremes.



FIRST AID


Inhalation:

If Polyquaternium-11 (PQ-11) dust or mist is inhaled and respiratory irritation occurs, remove the affected person to fresh air immediately.
Allow the individual to rest in a well-ventilated area and provide them with oxygen if breathing difficulties persist.
If the person is experiencing severe symptoms such as difficulty breathing or chest tightness, seek medical attention promptly.
Provide artificial respiration if the person is not breathing and seek immediate medical assistance.


Skin Contact:

In case of skin contact with Polyquaternium-11 (PQ-11), immediately remove contaminated clothing and rinse the affected area with plenty of water for at least 15 minutes.
Wash the skin gently with mild soap and water to remove any remaining traces of the compound.
If skin irritation or redness develops, apply a soothing, fragrance-free moisturizer or hydrocortisone cream to the affected area.
Seek medical advice if skin irritation persists or if the skin appears damaged or burned.


Eye Contact:

If Polyquaternium-11 (PQ-11) comes into contact with the eyes, immediately flush the eyes with lukewarm water for at least 15 minutes, holding the eyelids open to ensure thorough rinsing.
Remove contact lenses if present and easily removable after flushing the eyes.
Seek immediate medical attention if eye irritation, pain, or redness persists after rinsing.
Do not rub the eyes, as this may exacerbate irritation and potentially cause corneal abrasions.


Ingestion:

If Polyquaternium-11 (PQ-11) is ingested accidentally and the person is conscious, rinse their mouth thoroughly with water and encourage them to drink water or milk to dilute the compound.
Do not induce vomiting unless instructed to do so by medical personnel, especially if the individual is unconscious or experiencing convulsions.
Seek medical advice immediately, and provide the healthcare provider with information about the ingested substance, including its name, concentration, and the amount ingested.
Monitor the person for signs of gastrointestinal distress, such as nausea, vomiting, or abdominal pain, and seek medical attention promptly if symptoms worsen or persist.



HANDLING AND STORAGE


Handling:

When handling Polyquaternium-11 (PQ-11), wear appropriate personal protective equipment (PPE) including gloves, safety goggles, and protective clothing to prevent skin and eye contact.
Avoid breathing in dust, mist, or vapors generated by the compound. Use local exhaust ventilation or respiratory protection if necessary to control airborne exposure.
Ensure adequate ventilation in the work area to minimize the buildup of vapors or fumes.
Do not eat, drink, or smoke while handling Polyquaternium-11 (PQ-11), and wash hands thoroughly after handling to prevent accidental ingestion.
Use caution when transferring or pouring Polyquaternium-11 (PQ-11) to prevent spills and splashes. Use appropriate tools and equipment such as funnels or pumps to minimize contact with the compound.
Keep containers tightly closed when not in use to prevent contamination and minimize exposure to air and moisture.
Avoid contact with incompatible materials such as strong acids, oxidizing agents, and alkalis, as they may react with Polyquaternium-11 (PQ-11) and cause hazardous conditions.
Store Polyquaternium-11 (PQ-11) away from sources of heat, ignition, and direct sunlight to prevent degradation or decomposition.
Avoid storing Polyquaternium-11 (PQ-11) in areas prone to temperature fluctuations, as extreme temperatures may affect its stability and performance.
Do not allow Polyquaternium-11 (PQ-11) to come into contact with open flames, sparks, or hot surfaces, as it may be flammable under certain conditions.


Storage:

Store Polyquaternium-11 (PQ-11) in a cool, dry, well-ventilated area away from sources of heat, ignition, and direct sunlight.
Keep containers tightly closed and upright to prevent leakage or spills. Store larger quantities in suitable containers with secondary containment to contain spills.
Store Polyquaternium-11 (PQ-11) away from incompatible materials such as strong acids, oxidizing agents, and alkalis to prevent reactions or contamination.
Ensure storage areas are equipped with appropriate firefighting equipment and spill containment materials in case of emergencies.
Follow local regulations and guidelines for the storage of chemicals, including any specific requirements for the storage of Polyquaternium-11 (PQ-11).
Keep storage areas clean and free from clutter to minimize the risk of spills and accidents.
Check containers regularly for signs of damage or deterioration and replace any damaged or compromised containers promptly.
Store Polyquaternium-11 (PQ-11) in its original packaging or labeled containers to ensure proper identification and traceability.


Transportation:

When transporting Polyquaternium-11 (PQ-11), use suitable containers that are properly labeled and secured to prevent leakage or spills during transit.
Follow applicable regulations and guidelines for the transportation of hazardous materials, including any requirements for packaging, labeling, and documentation.
Ensure that drivers and handlers are trained in the safe handling and transportation of chemicals and are equipped with appropriate PPE.
Avoid transporting Polyquaternium-11 (PQ-11) with incompatible materials or hazardous substances to prevent accidents or chemical reactions.
In case of spills or leaks during transportation, follow established emergency procedures and guidelines for containment, cleanup, and reporting.
POLYSORATE 80
Les polysorbates sont des esters d'acides gras et de polyoxyéthylène sorbitane (dérivé éthoxylé du sorbitane). Constitués ainsi d'une chaîne aliphatique hydrophobe (l'acide ou les acides gras) et d'une « tête » éthoxylée hydrophile, ce sont des molécules amphiphiles utilisées comme tensioactifs (émulsifiants), dont la HLB dépend des acides gras en jeu et du nombre de fonctions éthoxy. Les polysorbates sont parfois désignés par le nom de marque Tween. E 432 Monolaurate de polyoxyéthylène sorbitane (polysorbate 20) .E433 Monooléate de polyoxyéthylène sorbitane (polysorbate 80) .E434 Monopalmitate de polyoxyéthylène sorbitane (polysorbate 40) . E435 Monostéarate de polyoxyéthylène sorbitane (polysorbate 60) . E436 Tristéarate de polyoxyéthylène sorbitane (polysorbate 65)
Polysorbate
cas no 9005-64-5 Tween 20; Polyoxyethylene (20) sorbitan monolaurate; 2-(2-(3,4-Bis(2-hydroxyethoxy)tetrahydrofuran-2-yl)-2-(2-hydroxyethoxy)ethoxy)ethyl dodecanoate; 2-[2-[3,4-bis(2-hydroxyethoxy)tetrahydrofuran-2-yl]-2-(2-hydroxyethoxy)ethoxy]ethyl dodecanoate;
POLYSORBATE 20
Polysorbate 20; polyoxyethylene (20) sorbitan monolaurate; Montanox 20; Polysorbate 20; PEG(20)sorbitan monolaurate; Alkest TW 20; Tween 20; Polisorbate 20- PS 20;Tween 20 (Trademark of ICI America, Inc.);Tween 20 ;Tween 20 1LT;Twain 20;TWEEN(R) 20 Vetec(TM) reagent grade, 40%;Tween 20 Tween 20 1LT;Polysorbate 20; CAS NO:9005-64-5
POLYSORBATE 20
Polysorbate 20 (common commercial brand names include Kolliphor PS 20, Scattics, Alkest TW 20, Tween 20, and Kotilen-20) is a polysorbate-type nonionic surfactant formed by the ethoxylation of sorbitan monolaurate.
Polysorbate 20's stability and relative nontoxicity allows it to be used as a detergent and emulsifier in a number of domestic, scientific, and pharmacological applications.
As the name implies, the ethoxylation process leaves the molecule with 20 repeat units of polyethylene glycol; in practice these are distributed across 4 different chains, leading to a commercial product containing a range of chemical species.

CAS: 9005-64-5
MF: C26H50O10
MW: 522.6692
EINECS: 500-018-3

Polysorbate 20, whose common commercial names includes Alkest TW 20 and Polysorbate 20, is a mild nonionic surfactant formed by the ethoxylation of sorbitan before the addition of lauric acid which is a medium-chain fatty acid found mainly in coconut oil.
Polysorbate 20 is allowed to be used as the emulsifier, detergent, dispersant, solvent and stabilizer, etc. in a number of fields such as pharmaceutical, chemical, food, textile and other industries due to its stability and relative non-toxicity.
Polysorbate 20 is widely applied in biological techniques and sciences, which can be added to buffers and reagents for immunohistochemistry, such as Western blots and ELISAs, helping to prevent non-specific antibody binding, decrease background staining and enhance reagent spreading.

Besides, Polysorbate 20 also has applications in food production as a common food grade additive which are found in many consumables on the market today.
Polysorbate 20 can also be used as a wetting agent in flavored mouth drops such as Ice Drops, in oral or non-gastrointestinal suspensions and in rubber balers in the elastomer industry.
Polysorbate 20 is a polymer composed of PEG-ylated sorbitan, where the total number of poly(ethylene glycol) units is 20 (w + x + y + z = 20) and a single terminal is capped by a dodecanoyl group.
Polysorbate 20 is a surfactant and emulsifier used in cleaners and personal care products.
Polysorbate 20 is a hydrophilic nonionic surfactant generally used as emulsifiers, dispersing agent and solubilizer.

In Polysorbate 20's original form, polysorbate is a harmless sorbitol, which is a sugar alcohol.
For Polysorbate 20's use in personal care products, however, it’s treated with ethylene oxide.
Thus, the name “polysorbate 20,” because it’s treated with 20 parts of ethylene oxide.
The result is an ingredient used as an emulsifier in cosmetic creams, lotions, cream deodorant, baby oil, sun lotion, etc.
Polysorbate 20 is used to help mix oil and water.

Polysorbate 20 is a polysorbate-type nonionic surfactant used in many commercial, household and pharmaceutical products.
Polysorbate 20 is composed of 20 repeated units of polyethylene glycol via ethoxylation.
Polysorbate 20 is a wetting agent in food products, as well as washing agent, stabilizer and solubilizer in labratory assays and industrial applications.
Polysorbate 20 is also an excipient that stabilizes emulsions and suspensions in pharmaceutical products and lubricant in ophthalmic solutions.

Polysorbate 20 is a nonionic surfactant and emulsifier derived from polyoxyethylene derivative of sorbitan monolaurate which comes from fruit and berries.
Polysorbate 20 is used as a wetting agent in flavored mouth drops such as Ice Drops, helping to provide the spreading feeling of the other ingredients like SD alcohol and mint flavor,used as a detergent and emulsifier in a number of domestic, scientific, and pharmacological applications.
Polysorbate 20 is used as an excipient in pharmaceutical applications to stabilize emulsions and suspensions.
Polysorbate 20 is also used by philatelists to remove stamps from envelopes and to remove residues from stamps, without harming the stamp itself.

Polysorbate 20 Chemical Properties
Melting point: 98.9 °C (decomp)
Boiling point: 100 °C
Density: 1.11 g/mL at 20 °C
Vapor pressure: FEMA: 2915 | POLYSORBATE 20
Refractive index: n20/D 1.468(lit.)
Fp: >230 °F
Storage temp.: Store below +30°C.
Solubility: 100 g/L
Form: viscous liquid
Color: Amber
Specific Gravity: 1.090~1.130 (20/20℃)
PH: 6-8 (50g/l, H2O, 20℃)
PH Range: 7
Odor: mild alcohol odor
Odor Type: alcoholic
Water Solubility: 100 g/L
Hydrophilic-Lipophilic Balance (HLB): 16.7
Stability: Stable. Incompatible with strong oxidizing agents.
EPA Substance Registry System: Polysorbate 20 (9005-64-5)

Polysorbate 20 is a mixture of laurate partial esters of sorbitol and sorbitol anhydrides condensed with approximately 20 mole of ethylene oxide (C2H4O) for each mole of sorbitol and its mono- and dianhydrides.
Polysorbate 20 has a faint, characteristic odor and a warm, somewhat bitter taste.

Uses
Used for solubilizing membrane proteins during isolation and purification.
Polysorbate 20 is used as a wetting agent in flavored mouth drops.
Polysorbate 20 acts as a washing agent in Western blots and ELISAs and prevents antibody binding.
Polysorbate 20 is a solubilizing agent of membrane proteins.
In pharmaceutical chemistry, Polysorbate 20 is used as an excipient to stabilize emulsions and suspensions.

Further, Polysorbate 20 is used as a dispersing agent, stabilizer, lubricator and also used in creams, salves, ointments, protective creams, balms, pomades, lipsticks, mascaras and glosses.
polysorbate 20 is a solubilizer, emulsifier, viscosity modifier, and stabilizer of essential oils in water.
Polysorbate 20 can be used where you need water and oil to combine, room fragrances for example.

Polysorbate 20 can also be used in shower gels, cream & skincare preparations, liquid cosmetics and shower gels or shampoos.
Polysorbate 20 is both soothing and draws impurities from the skin making it the perfect addition to a range of skincare cleansers.
As a guide, 10g Polysorbate 20 will solubise up to 3g of essential or fragrance oil.

Biotechnical applications
In biological techniques and sciences, polysorbate 20 has a broad range of applications. For example, Polysorbate 20 is used:

Polysorbate 20 as a washing agent in immunoassays, such as Western blots and ELISAs.
Polysorbate 20 helps to prevent non-specific antibody binding.
In this major application, Polysorbate 20 is dissolved in Tris-buffered saline or phosphate buffered saline at dilutions of 0.05% to 0.5% v/v.
These buffers are used for washes between each immunoreaction, to remove unbound immunologicals, and eventually for incubating solutions of immunoreagents (labeled antibodies) to reduce nonspecific background.

Polysorbate 20 to saturate binding sites on surfaces (i.e., to coat polystyrene microplates, generally combined with proteins such as BSA).
Polysorbate 20 to stabilize proteins purified protein derivative (PPD) solution used in skin testing for tuberculosis exposure as a solubilizing agent of membrane proteins
for lysing mammalian cells, at a concentration of 0.05% to 0.5% v/v, generally combined with other detergents, salts and additives.

Industrial and domestic applications
Polysorbate 20 is used in many brands of baby wipes.
Polysorbate 20 is used by philatelists to remove stamps from envelopes and to remove residues from stamps, without harming the stamp itself.
Polysorbate 20 is also used as wetting agent in rubber balers in the elastomer industry.
Polysorbate 20 has been used as a shape directing agent to synthesize spheroidal magnetite nanoassemblies.

Preparation
polysorbate 20 is prepared by condensing the partial esters of sorbitol and its anhydrides with ethylene oxide to effect an oxyethylene copolymerization at the free hydroxyl groups.

Health Effects
Polysorbate 20 was a skin irritant in dermatitis patients but was reported not to induce irritant responses when applied to the intact skin of health volunteers.
Polysorbate 20 produced, at worst, minimal irritation in the eyes of rabbits.
Only a small number of cases of skin sensitization have been reported in humans, although a moderate to strong sensitizing potential was seen in guinea-pigs treated by intradermal injection.

Synonyms
Polysorbate 20
Polyoxyethylene (20) sorbitan monolaurate
7T1F30V5YH
Polyethylene glycol (44) sorbitan monolaurate
Polyethylene glycol (80) sorbitan monolaurate
Polyethylene glycol 4000 sorbitan monolaurate
Polyethylene glycol 500 sorbitan monolaurate
Polyoxyethylene (10) sorbitan monolaurate
Polyoxyethylene (44) sorbitan monolaurate
Polyoxyethylene (75) sorbitan monolaurate
Polyoxyethylene (80) sorbitan monolaurate
Polyoxyethylene 20 sorbitan monolaurate
FEMA No. 2915
POE 20 Sorbitan monolaurate
PSML
Polyethylene glycol 2000 Sorbitan Laurate
Polyoxyethylene (4) sorbitan monolaurate
Sorbimacrogol laurate 300
Sorbitan monolaurate, ethoxylated
20s, Polysorbate
Armotan pml-20
CCRIS 699
DTXSID3031949
Dxewmulse poe-sml
E-432
EC 500-018-3
Emsorb 6915
Glycosperse L-20
Glycosperse L-20X
HSDB 7824
Hodag psml-20
INS NO.432
INS-432
Liposorb L-20
PEG-20 SORBITAN
PEG-40 Sorbitan laurate
POLY(OXY-1,2-ETHANEDIYL) DERIVATIVE
POLYSORBATA 20
POLYSORBATE 20 (EP MONOGRAPH)
POLYSORBATE 20 (II)
POLYSORBATE 20 (MART.)
POLYSORBATE 20 (USP-RS)
Peg sorbitan laurate
Peg-20 sorbitan laurate
Poly(oxy-1,2-ethanediyl) derivatives
Polyoxyethylene (40) sorbitan laurate
Polyoxyethylene 20 laurate
Polysorbate 20s
Polysorbatum 20
Protasorb L-20
Sorbitan, monododecanoate, poly(oxy-1,2-ethanediyl) derivatives
Sorbitan, monododecanote, poly(oxy-1,2-ethanediyl) derivatives
Sorbitan, monolaurate, polyoxyethylene derivs.
TWEEN-20
UNII-239B50Y732
UNII-31JQ3WOL8T
UNII-4Z93U4C2WN
UNII-59IO08SBZU
UNII-7T1F30V5YH
UNII-I42X3Q0FMF
POLYSORBATE 20
DESCRIPTION:
Polysorbate 20 (common commercial brand names include Kolliphor PS 20, Scattics, Alkest TW 20, Tween 20, and Kotilen-20) is a polysorbate-type nonionic surfactant formed by the ethoxylation of sorbitan monolaurate.
Its stability and relative nontoxicity allows it to be used as a detergent and emulsifier in a number of domestic, scientific, and pharmacological applications.
As the name implies, the ethoxylation process leaves the molecule with 20 repeat units of polyethylene glycol; in practice these are distributed across 4 different chains, leading to a commercial product containing a range of chemical species.


CAS Number: 9005-64-5
European Community (EC) Number: 500-018-3

Polysorbate 20 is the INCI name for sorbitan monolaurate, which has found its use primarily in the cosmetics industry but also performs similar functions in the production of pharmaceuticals, food, agricultural chemicals, and household and industrial cleaners.

Polysorbate 20 is one of the various types of polysorbates commonly used in food, cosmetics, and pharmaceuticals.
In the skincare industry, polysorbate 20 is used as an excipient compound in emulsions and suspensions.

It is essentially an oily liquid that binds oil and water together in mixtures where they would typically remain separate.
Most emulsions use polysorbate 20 to keep these substances bound and ensure the product functions appropriately.

Without an emulsifier, the products would separate, and they would no longer function properly despite the ingredients being present in the separated product.
Polysorbate 20 shares its role with polysorbate 80, with both compounds serving as effective emulsifiers for skincare products.

The difference is that polysorbate 20 is rarer and is generally used to mix lighter liquids, while polysorbate 80 excels in mixing denser liquids.
Despite these differences, polysorbate 20 remains a common choice for several manufacturers.

Polysorbate 20 appears as an oily liquid with colors ranging from yellow to orange and has a faint odor with a slightly bitter taste.
Polysorbate 20 is also highly soluble in water, methanol, toluene, and ethyl acetate but insoluble in mineral and vegetable oils.
These characteristics can help you identify polysorbate 20 in its base form, but they are predominantly absent when refined into a product.

Therefore, you might be unable to tell when polysorbate 20 is present in your product unless you check the ingredients listed on the container.
Ultimately, polysorbate 20 is a tool for keeping emulsions viable, but there is still a lot of mystery surrounding it.
The biggest question people have is whether polysorbate 20 is safe or if it represents a threat to their health.



Polysorbate 20 is a type of oily liquid ingredient that is used in the cosmetic industry because it acts as an emulsifier and helps bind oil and water together.
Polysorbate 20 enhances the spreadability of formulations and is also gentle on skin and hair.
Polysorbate 20 can be found in products like face washes, body lotions, hair sprays, mascaras and foundations.

Polysorbate 20 is also responsible for creating foam in cleansing products.
The chemical formula of Polysorbate 20 is C58H114O26.



FOOD APPLICATIONS OF POLYSORBATE 20:
Polysorbate 20 is used as a wetting agent in flavored mouth drops such as Ice Drops, helping to provide a spreading feeling to other ingredients like SD alcohol and mint flavor.

The World Health Organization has suggested acceptable daily intake limits of 0–25 mg of polyoxyethylene sorbitan esters per kg body weight.

BIOTECHNICAL APPLICATIONS OF POLYSORBATE 20:
In biological techniques and sciences, polysorbate 20 has a broad range of applications.
For example, Polysorbate 20 is used as a washing agent in immunoassays, such as Western blots and ELISAs.

Polysorbate 20 helps to prevent non-specific antibody binding.
In this major application, it is dissolved in Tris-buffered saline or phosphate buffered saline at dilutions of 0.05% to 0.5% v/v.
These buffers are used for washes between each immunoreaction, to remove unbound immunologicals, and eventually for incubating solutions of immunoreagents (labeled antibodies) to reduce nonspecific background.


Polysorbate 20 is used to saturate binding sites on surfaces (i.e., to coat polystyrene microplates, generally combined with proteins such as BSA).
Polysorbate 20 is used to stabilize proteins purified protein derivative (PPD) solution used in skin testing for tuberculosis exposure

Polysorbate 20 is used as a solubilizing agent of membrane proteins
Polysorbate 20 is used for lysing mammalian cells, at a concentration of 0.05% to 0.5% v/v, generally combined with other detergents, salts and additives.


PHARMACEUTICAL APPLICATIONS OF POLYSORBATE 20:
Polysorbate 20 is used as an excipient in pharmaceutical applications to stabilize emulsions and suspensions.

INDUSTRIAL AND DOMESTIC APPLICATIONS OF POLYSORBATE 20:

Polysorbate 20 is used in many brands of baby wipes.
Polysorbate 20 is used by philatelists to remove stamps from envelopes and to remove residues from stamps, without harming the stamp itself.
Polysorbate 20 is also used as wetting agent in rubber balers in the elastomer industry.


Polysorbate 20 has been used as a shape directing agent to synthesize spheroidal magnetite nanoassemblies


CHARACTERISTICS OF POLYSORBATE 20:

Polysorbate 20 is an oily, viscous liquid,
Polysorbate 20 is lemon to amber in colour,
Polysorbate 20 is faint, distinctive scent,

Polysorbate 20 is soluble in water (cold or hot), methanol, ethanol, ethyl acetate and dioxane,
Polysorbate 20 is insoluble in mineral oil and petroleum ether,
Polysorbate 20 is stable in the presence of weak acids and bases,

Polysorbate 20 is hygroscopic (the material may contain up to 3% water by weight),
Polysorbate 20 is prolonged storage can lead to the formation of peroxides,
Polysorbate 20 is biodegradable,

Polysorbate 20 is highly effective in oil-in-water emulsions (O/W emulsions),
Polysorbate 20 may reduce the effectiveness of preservatives containing parabens,
Polysorbate 20 demonstrates resistance in hard water,
Polysorbate 20 is non-toxic.




FUNCTIONS AND EFFECTS OF POLYSORBATE 20 IN COSMETICS
The most common application for Polysorbate 20 is in all kinds of cosmetic and personal care products.
Polysorbate 20 is used, among others, as a solvent for other components of cosmetic formulations, as an emulsifier that allows combining hydrophilic and hydrophobic components (mainly used in oil-in-water emulsions).

Polysorbate 20 also acts as a stabiliser to the product obtained (preventing phase separation in the emulsion) and the resulting foam.
Polysorbate 20 is also used to reduce the viscosity of surfactant solutions.
Polysorbate 20 is considered a mild cleaning detergent that does not cause irritation.

Polysorbate 20 as a cosmetic ingredient lubricates and soothes the skin.
Polysorbate 20 reduces potential irritating and drying properties of other cosmetic ingredients.
Polysorbate 20 was even used in the first shampoos designed for children.

Polysorbate 20 is an effective microemulsifier and solubiliser for dissolving compounds such as essential oils and perfumes in water.
Of all the compounds in the Polysorbate group, Polysorbate 20 has the mildest effect.

Products containing Polysorbate 20:
• lotions,
• liquid soaps,
• hair conditioners,
• shampoos,
• body scrubs,
• body mists,
• hair styling products,
• mouthwashes

OTHER APPLICATIONS OF POLYSORBATE 20:
Polysorbate 20 is widely used in science.
Polysorbate 20 has become an excipient in biopharmaceutical preparations, some of which may have enzymatic activity.
The effect of Polysorbate 20 in biopharmaceuticals is based on its role as a stabiliser.
Therefore, Polysorbate 20 is necessary for the surfactant to maintain its structure intact.

If Polysorbate 20 becomes autoxidised, a Polysorbate 20 side-chain cleavage will occur and ultimately short-chain acids such as formic acid will form, which may affect the stability of the biopharmaceutical product.
Other pharmaceutical uses include topical analgesics, anti-rheumatic drugs, and in sunscreens.
Like Polysorbate 80, Polysorbate 20 is listed as clarifying agent in ophthalmic preparations and as contact lens cleaners or solvents at concentrations not exceeding 1.0%.

In addition to the said uses, Polysorbate 20 also serves as an emulsifier in fire-resistant hydraulic fluids.
These are primarily HFA, HFB, HFC and HFD-U liquids.

In metalworking, Polysorbate 20 is used as a component of machining fluids.
Polysorbate 20 increases emulsion stability and improves the foaming characteristics of fluids used in metalworking processes.

In addition, commercial products containing up to 99% of Polysorbate 20, such as ROKwinol, offered by the PCC Group, are used in the agrochemical industry as an emulsifier for pesticide formulations.


USES OF POLYSORBATE 20:
Polysorbate 20 offers many benefits to the cosmetic and personal care industry.
Polysorbate 20 is useful for skin and hair formulations in many different ways.
Skin care:
Polysorbate 20 acts as a great surfactant that reduces the surface tension of other ingredients to result in a stable product.
Polysorbate 20 also produces foam in cleansing products and attracts oil and dirt to wash them away

Hair care:
Apart from its surfactant traits, Polysorbate 20 doubles up as a fragrance ingredient as Polysorbate 20 is derived from sorbitol which comes from certain sweet smelling fruits.
Hence, Polysorbate 20 enhances the scent of the products that it is added to

Cosmetic products:
Polysorbate 20 is a good emulsifier that prevents the water based and oil based ingredients from separating in a formulation.
This results in a better textured product that is easy to spread and apply

Solubilizer Polysorbate 20 functions as a(n):
• Solubilizer
• Stabilizer
• Emulsifier
• Surfactant
• Wetting Agent
• Dispersant
• Anti-static Agent
• Thickener
• Viscosity Modifier
• Fragrance Ingredient
• Lubricant
• Pharmaceutical
• Food Additive
• Detergent
• Emulsifier
• Wetting Agent
• Viscosity Modifier
• Dispersing Agent
• Solubilizer & Stabilizer
• Cosmetic Products
• Skin Care Products
• Bath Oils
• Shampoos
• Body Sprays
• Face Wash
• Lotions
• Deodorants


Polysorbate 20 Combines immiscible ingredients
Polysorbate 20 Gently cleanses and soothe the skin and scalp
Polysorbate 20 Creates foam in cleansing products

Polysorbate 20 Offers a consistent thoroughly-blended feel to products
Polysorbate 20 Maintains product transparency and clarity
Polysorbate 20 Enhances spreadability of product on skin






SAFETY INFORMATION ABOUT POLYSORBATE 20:
First aid measures:
Description of first aid measures:
General advice:
Consult a physician.
Show this safety data sheet to the doctor in attendance.
Move out of dangerous area:

If inhaled:
If breathed in, move person into fresh air.
If not breathing, give artificial respiration.
Consult a physician.
In case of skin contact:
Take off contaminated clothing and shoes immediately.
Wash off with soap and plenty of water.
Consult a physician.

In case of eye contact:
Rinse thoroughly with plenty of water for at least 15 minutes and consult a physician.
Continue rinsing eyes during transport to hospital.

If swallowed:
Do NOT induce vomiting.
Never give anything by mouth to an unconscious person.
Rinse mouth with water.
Consult a physician.

Firefighting measures:
Extinguishing media:
Suitable extinguishing media:
Use water spray, alcohol-resistant foam, dry chemical or carbon dioxide.
Special hazards arising from the substance or mixture
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas

Advice for firefighters:
Wear self-contained breathing apparatus for firefighting if necessary.
Accidental release measures:
Personal precautions, protective equipment and emergency procedures
Use personal protective equipment.

Avoid breathing vapours, mist or gas.
Evacuate personnel to safe areas.

Environmental precautions:
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Methods and materials for containment and cleaning up:
Soak up with inert absorbent material and dispose of as hazardous waste.
Keep in suitable, closed containers for disposal.

Handling and storage:
Precautions for safe handling:
Avoid inhalation of vapour or mist.

Conditions for safe storage, including any incompatibilities:
Keep container tightly closed in a dry and well-ventilated place.
Containers which are opened must be carefully resealed and kept upright to prevent leakage.
Storage class (TRGS 510): 8A: Combustible, corrosive hazardous materials

Exposure controls/personal protection:
Control parameters:
Components with workplace control parameters
Contains no substances with occupational exposure limit values.
Exposure controls:
Appropriate engineering controls:
Handle in accordance with good industrial hygiene and safety practice.
Wash hands before breaks and at the end of workday.

Personal protective equipment:
Eye/face protection:
Tightly fitting safety goggles.
Faceshield (8-inch minimum).
Use equipment for eye protection tested and approved under appropriate government standards such as NIOSH (US) or EN 166(EU).

Skin protection:
Handle with gloves.
Gloves must be inspected prior to use.
Use proper glove
removal technique (without touching glove's outer surface) to avoid skin contact with this product.
Dispose of contaminated gloves after use in accordance with applicable laws and good laboratory practices.
Wash and dry hands.

Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
Splash contact
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
It should not be construed as offering an approval for any specific use scenario.

Body Protection:
Complete suit protecting against chemicals, The type of protective equipment must be selected according to the concentration and amount of the dangerous substance at the specific workplace.
Respiratory protection:
Where risk assessment shows air-purifying respirators are appropriate use a fullface respirator with multi-purpose combination (US) or type ABEK (EN 14387) respirator cartridges as a backup to engineering controls.

If the respirator is the sole means of protection, use a full-face supplied air respirator.
Use respirators and components tested and approved under appropriate government standards such as NIOSH (US) or CEN (EU).
Control of environmental exposure
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Stability and reactivity:
Chemical stability:
Stable under recommended storage conditions.
Incompatible materials:
Strong oxidizing agents:
Hazardous decomposition products:
Hazardous decomposition products formed under fire conditions.
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas.

Disposal considerations:
Waste treatment methods:
Product:
Offer surplus and non-recyclable solutions to a licensed disposal company.
Contact a licensed professional waste disposal service to dispose of this material.
Contaminated packaging:
Dispose of as unused product









CHEMICAL AND PHYSICAL PROPERTIES OF POLYSORBATE 20:
Chemical formula C58H114O26
Molar mass 1226 g/mol
Appearance Clear, yellow to yellow-green viscous liquid.
Density 1.1 g/mL (approximate)
Boiling point > 100 °C (212 °F; 373 K)
Surface tension:
CMC 8.04×10−5 M at 21 °C
HLB 16.7


SYNONYMS OF POLYSORBATE 20:

Polysorbate 20
Polyoxyethylene (20) sorbitan monolaurate
7T1F30V5YH
Polyethylene glycol (44) sorbitan monolaurate
Polyethylene glycol (80) sorbitan monolaurate
Polyethylene glycol 4000 sorbitan monolaurate
Polyethylene glycol 500 sorbitan monolaurate
Polyoxyethylene (10) sorbitan monolaurate
Polyoxyethylene (44) sorbitan monolaurate
Polyoxyethylene (75) sorbitan monolaurate
Polyoxyethylene (80) sorbitan monolaurate
Polyoxyethylene 20 sorbitan monolaurate
FEMA No. 2915
POE 20 Sorbitan monolaurate
PSML
Polyethylene glycol 2000 Sorbitan Laurate
Polyoxyethylene (4) sorbitan monolaurate
Sorbimacrogol laurate 300
Sorbitan monolaurate, ethoxylated
20s, Polysorbate
Armotan pml-20
CCRIS 699
DTXSID3031949
Dxewmulse poe-sml
E-432
EC 500-018-3
Emsorb 6915
Glycosperse L-20
Glycosperse L-20X
HSDB 7824
Hodag psml-20
INS NO.432
INS-432
Liposorb L-20
PEG-20 SORBITAN
PEG-40 Sorbitan laurate
POLY(OXY-1,2-ETHANEDIYL) DERIVATIVE
POLYSORBATA 20
POLYSORBATE 20 (EP MONOGRAPH)
POLYSORBATE 20 (II)
POLYSORBATE 20 (MART.)
POLYSORBATE 20 (USP-RS)
Peg sorbitan laurate
Peg-20 sorbitan laurate
Poly(oxy-1,2-ethanediyl) derivatives
Polyoxyethylene (40) sorbitan laurate
Polyoxyethylene 20 laurate
Polysorbate 20s
Polysorbatum 20
Protasorb L-20
Sorbitan, monododecanoate, poly(oxy-1,2-ethanediyl) derivatives
Sorbitan, monododecanote, poly(oxy-1,2-ethanediyl) derivatives
Sorbitan, monolaurate, polyoxyethylene derivs.
TWEEN-20
UNII-239B50Y732
UNII-31JQ3WOL8T
UNII-4Z93U4C2WN
UNII-59IO08SBZU
UNII-7T1F30V5YH
UNII-I42X3Q0FMF


POLYSORBATE 20 (POLYOXYETHYLENE SORBITAN MONOLAURATE)

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is a nonionic surfactant that belongs to the class of polyoxyethylene derivatives of sorbitan esters.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is synthesized by the ethoxylation of sorbitan monolaurate, resulting in a polyethylene glycol chain attached to the sorbitan monolaurate molecule.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is commonly used in various industries, including pharmaceuticals, cosmetics, food, and household products, due to its emulsifying, solubilizing, and stabilizing properties.

CAS Number: 9005-64-5
EC Number: 500-018-3

Polysorbate 20, Polyoxyethylene Sorbitan Monolaurate, Tween 20, POE (20) Sorbitan Monolaurate, E433, Polyethylene Glycol (20) Sorbitan Monolaurate, Polyoxyethylene (20) Sorbitan Monolaurate, POE (20) Sorbitan Laurate, Polysorbat 20, Emanon 308, Emerest 2420, Glycosperse L-20, Montanox 20, Pegosperse 20, Alkest TW 20, Brij 35, Emalex LA-20, Myrj 49, PEG-20 Sorbitan Monolaurate, POE-20 Sorbitan Monolaurate, Polysorbate (20) Oleate, Polysorbate (20) Stearate, Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) Monooleate, Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) Monostearate, Sorbimacrogol Laurate, Sorbitan Ethoxylate (20) Monolaurate, T-MAZ 20, Tagat T20, Tween 20 NF, Tween 20S, T-Maz 20, Alkest TW 20, Atlas G 2084, Crill 10, DC 5200, Emanon 308, Emerest 2420, Emkapol 20, Myrj 49, Montane 20, Pegosperse 20, Tween 20V, Tween 20VG, Tween 20R, Tween 20T, Tween 20L, and Tween 20P



APPLICATIONS


Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is commonly used in pharmaceutical formulations as an emulsifier and solubilizing agent.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to improve the solubility and bioavailability of poorly soluble drugs in oral and parenteral dosage forms.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is utilized in creams, ointments, and gels to stabilize emulsions and maintain product uniformity.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is found in topical medications such as lotions and creams for its emollient properties.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is used in cosmetics and personal care products as an emulsifier and dispersing agent.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to create stable oil-in-water emulsions in creams, lotions, and moisturizers.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to shampoos and conditioners to improve the spreadability of hair care formulations.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is commonly found in bath products such as shower gels and bubble baths for its foaming properties.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is used in facial cleansers and makeup removers to dissolve and lift away dirt and impurities.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to skincare products such as serums and toners for its soothing and hydrating properties.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is utilized in oral care products such as mouthwashes and toothpaste as a dispersing agent.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is found in food products as an emulsifier and stabilizer in dressings, sauces, and desserts.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to create smooth and creamy textures in ice cream and frozen desserts.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is used in beverages such as flavored syrups and milkshakes to improve flavor dispersion.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to household products such as cleaners and detergents for its emulsifying properties.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to suspend oil and grease particles in cleaning solutions, improving their efficacy.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is utilized in pesticide formulations to improve the dispersibility of active ingredients.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to agricultural sprays and herbicides to enhance the uniformity of application.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is found in veterinary products such as topical treatments and wound dressings for animals.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is used in industrial applications such as metalworking fluids and lubricants.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to improve the wetting and dispersing properties of industrial formulations.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is utilized in textile processing as an emulsifier and wetting agent in dyeing and finishing processes.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to ink formulations to improve ink flow and pigment dispersion.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is used in the production of photographic chemicals for film and paper processing.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) finds applications in a wide range of industries, contributing to the efficacy and performance of various products.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is utilized in the textile industry as an emulsifier and dispersing agent in textile dyeing and printing processes.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to evenly distribute dyes and pigments onto fabric surfaces, ensuring vibrant and uniform coloration.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to leather processing formulations to improve the wetting and penetration of chemicals during tanning and finishing.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) assists in the even application of leather dyes, finishes, and coatings, resulting in high-quality leather products.
In the automotive industry, Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is used in car wash and detailing products to emulsify and remove dirt, grease, and grime from vehicle surfaces.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) aids in the suspension of dirt particles in cleaning solutions, preventing redeposition onto surfaces.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to metalworking fluids and lubricants to improve their stability and performance in cutting, machining, and grinding operations.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to reduce friction and heat generation during metalworking processes, prolonging tool life and improving surface finish.
In the paper and pulp industry, Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is used as a dispersing agent in pulp slurries and paper coatings.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) facilitates the uniform dispersion of fibers and fillers in papermaking, improving paper strength and printability.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to inkjet printer inks to improve ink stability, prevent clogging, and enhance print quality.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) aids in the dispersion of colorants and pigments in ink formulations, resulting in sharp and vibrant prints.
In the agricultural sector, Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is utilized in pesticide formulations to enhance the dispersion and efficacy of active ingredients.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to improve the wetting and coverage of plant surfaces, maximizing pesticide uptake and efficacy.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to fertilizer formulations as a dispersing agent to improve nutrient solubility and availability to plants.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) aids in the even distribution of nutrients in soil and promotes uniform plant growth and development.
In the construction industry, Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is used in cement and concrete additives to improve workability and reduce water content.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) enhances the flow and pumpability of concrete mixes, resulting in smoother and more durable concrete structures.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to drilling fluids in the oil and gas industry to improve lubrication and reduce friction during drilling operations.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to prevent clay and shale swelling, stabilize borehole walls, and enhance drilling efficiency.
In the cosmetics industry, Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is used in sunscreens and sun care products to disperse UV filters and enhance their stability.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) aids in the even distribution of sunscreen actives on the skin, providing uniform protection against UV radiation.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to fragrance formulations as a solubilizer to improve the dispersibility of fragrance oils in water-based products.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to create stable and clear fragrance solutions, enhancing the sensory experience of scented products.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) finds diverse applications across various industries, contributing to the efficacy, performance, and quality of numerous products and processes.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is used in the formulation of veterinary vaccines and medications to improve the dispersion and stability of active ingredients.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) aids in the suspension of vaccine antigens and adjuvants, ensuring uniform distribution in the final product.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to wound care products such as antiseptic solutions and wound dressings to improve their spreadability and efficacy.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to evenly distribute antiseptic agents and wound healing compounds over the affected area, promoting faster healing.
In the textile printing industry, Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is utilized as a leveling agent to control the absorption and diffusion of dyes on fabric surfaces.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to prevent uneven dye uptake and ensure consistent color intensity and hue in printed textiles.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to aerosol sprays and air fresheners as a dispersing agent to improve the dispersion of fragrance oils and odor neutralizers.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to create fine, uniform droplets of fragrance that linger in the air, providing long-lasting freshness.
In the agricultural sector, Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is used as a wetting agent and spreader in pesticide formulations to improve coverage and adhesion to plant surfaces.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) facilitates the uniform distribution of pesticide droplets on leaves and stems, maximizing pest control efficacy.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to metal cleaners and degreasers to emulsify and remove oil, grease, and other contaminants from metal surfaces.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to break down and disperse stubborn residues, leaving metal surfaces clean and free of grime.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is utilized in the formulation of inkjet printer cleaning solutions to dissolve and remove dried ink and debris from print heads.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) aids in the gentle yet effective cleaning of print heads, restoring print quality and preventing clogs.
In the manufacturing of ceramics and pottery, Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is used as a dispersing agent in glaze formulations to ensure even distribution of pigments and additives.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to prevent settling and agglomeration of particles, resulting in smooth and uniform glaze surfaces.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to cosmetic wax formulations such as hair removal waxes and depilatory creams to improve spreadability and adherence to hair.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to create flexible and easy-to-apply wax formulations that adhere well to hair for efficient removal.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is utilized in the formulation of cutting and grinding fluids in the metalworking industry to improve lubrication and cooling properties.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to reduce friction and heat generation during machining operations, prolonging tool life and improving surface finish.
In the production of water-based paints and coatings, Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is used as a dispersing agent to ensure uniform distribution of pigments and additives.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to stabilize paint formulations and prevent settling of pigments, resulting in consistent color and texture.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is added to adhesive formulations such as glues and sealants to improve wetting and adhesion to various substrates.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to enhance the spreadability and bonding strength of adhesives, ensuring reliable performance in bonding applications.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) exhibits versatile applications across a wide range of industries, contributing to the efficacy, performance, and quality of various products and processes.



DESCRIPTION


Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is a nonionic surfactant that belongs to the class of polyoxyethylene derivatives of sorbitan esters.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is synthesized by the ethoxylation of sorbitan monolaurate, resulting in a polyethylene glycol chain attached to the sorbitan monolaurate molecule.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is commonly used in various industries, including pharmaceuticals, cosmetics, food, and household products, due to its emulsifying, solubilizing, and stabilizing properties.

Chemically, Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is represented by the formula C58H114O26 and has a molecular weight of approximately 1227.52 g/mol.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is a yellowish to amber-colored viscous liquid with a mild characteristic odor.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is soluble in water and miscible with most organic solvents, making it versatile for use in a wide range of formulations.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is a nonionic surfactant with excellent emulsifying properties.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) appears as a clear, viscous liquid with a mild characteristic odor.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is soluble in water and miscible with most organic solvents.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is synthesized by the ethoxylation of sorbitan monolaurate.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) has a molecular formula of C58H114O26 and a molecular weight of approximately 1227.52 g/mol.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is commonly used as an emulsifier and solubilizing agent in various industries.

The hydrophilic polyethylene glycol chain in Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) allows it to dissolve in water.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is often found in pharmaceuticals, cosmetics, food, and household products.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to stabilize emulsions and prevent phase separation in formulations.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is gentle on the skin and suitable for use in personal care products.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) imparts a smooth and silky texture to cosmetic formulations.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is effective at dispersing and solubilizing oil-soluble ingredients in water-based products.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is used in oral and parenteral pharmaceutical formulations to improve solubility.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) enhances the bioavailability of poorly soluble drugs.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is commonly used in skincare products such as creams, lotions, and cleansers.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) helps to create stable oil-in-water emulsions in cosmetic formulations.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is used in hair care products such as shampoos and conditioners for its emulsifying properties.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is approved for use as a food additive in various countries.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is utilized in food products as an emulsifier and stabilizer in dressings, sauces, and desserts.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is often referred to by its trade names such as Tween 20 or Crill 10.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) plays a crucial role in the formulation of liquid dosage forms in the pharmaceutical industry.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is compatible with a wide range of other ingredients and additives.

Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is stable under normal storage and processing conditions.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) undergoes rigorous testing to ensure its safety and efficacy in consumer products.
Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is valued for its versatility and effectiveness as an emulsifier and solubilizing agent in various applications.



PROPERTIES


Physical Properties:

Appearance: Clear, colorless to pale yellow liquid
Odor: Mild characteristic odor
Texture: Viscous
Solubility: Soluble in water and miscible with most organic solvents
pH: Typically neutral (around pH 5-7)
Density: Approximately 1.07 g/cm³ at 20°C
Melting Point: Not applicable (Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) remains in liquid form at room temperature)
Boiling Point: Decomposes before boiling


Chemical Properties:

Chemical Formula: C58H114O26
Molecular Weight: Approximately 1227.52 g/mol
Chemical Structure: Polyoxyethylene derivative of sorbitan monolaurate



FIRST AID


Inhalation:

If Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is inhaled and respiratory irritation occurs, promptly remove the affected person to fresh air.
Assist the individual in finding a comfortable position to sit or lie down, ensuring proper ventilation.
If breathing difficulties persist or worsen, seek immediate medical attention.
Keep the affected person calm and reassure them while waiting for medical assistance.
Do not administer any medications unless directed by a healthcare professional.


Skin Contact:

In case of skin contact with Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate), immediately remove contaminated clothing and shoes.
Rinse the affected skin area thoroughly with lukewarm water for at least 15 minutes to remove any residual substance.
Use mild soap or detergent to cleanse the skin gently, avoiding vigorous scrubbing to prevent further irritation.
If irritation persists or worsens, seek medical advice promptly.
Apply a soothing and hydrating cream or lotion to the affected area to alleviate discomfort and prevent dryness.
Do not apply any topical medications or ointments unless recommended by a healthcare professional.


Eye Contact:

If Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) comes into contact with the eyes, immediately flush the eyes with gently flowing lukewarm water for at least 15 minutes.
Hold the eyelids open to ensure thorough rinsing and removal of any residual substance.
Remove contact lenses, if present and easily removable, after flushing the eyes.
Seek immediate medical attention, even if irritation or discomfort is minimal.
Do not rub the eyes, as this may exacerbate irritation and cause further damage.
Continue rinsing the eyes with water until medical help arrives.


Ingestion:

If Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) is ingested accidentally, do not induce vomiting unless directed to do so by medical personnel.
Rinse the mouth thoroughly with water, but do not swallow any water or other liquids.
Offer sips of water to drink if the person is conscious and able to swallow.
Seek immediate medical attention or contact a poison control center for further guidance.
Do not administer anything by mouth to an unconscious person.



HANDLING AND STORAGE


Handling:

Wear appropriate personal protective equipment (PPE) such as safety glasses, gloves, and protective clothing when handling Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate).
Avoid inhalation of vapors or aerosols by working in a well-ventilated area or using local exhaust ventilation.
Use caution to prevent splashes or spills when transferring or dispensing Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate).
Handle containers with care to minimize the risk of breakage.

Do not eat, drink, or smoke while handling Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate). Wash hands thoroughly with soap and water after handling to remove any residual substance.
Avoid contact with eyes, skin, and clothing.
In case of skin contact, rinse affected area with water immediately. In case of eye contact, flush eyes with water for at least 15 minutes while holding eyelids open.
Use appropriate engineering controls such as splash guards or safety shields to prevent exposure during handling operations.

Do not mix Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) with incompatible materials or substances. Consult compatibility charts or product labels for guidance.
Store Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) away from heat sources, sparks, open flames, and ignition sources to prevent fire or explosion hazards.
Keep containers tightly closed when not in use to prevent contamination and minimize evaporation.
Follow all relevant safety regulations and guidelines for the handling of hazardous chemicals.


Storage:

Store Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) in a cool, dry, well-ventilated area away from direct sunlight and sources of heat.
Ensure storage area is equipped with appropriate containment measures to prevent spills or leaks from spreading.
Store containers of Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) away from incompatible materials such as strong oxidizing agents, acids, or alkalis.
Keep containers upright and tightly closed to prevent leakage and spills.
Check containers regularly for signs of damage or deterioration.
Store large quantities of Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) in designated storage areas with adequate ventilation and containment measures.

Do not store Polysorbate 20 (Polyoxyethylene Sorbitan Monolaurate) near food, beverages, or animal feed to prevent contamination.
Keep storage area clean, dry, and well-organized to facilitate safe handling and access.
Ensure storage shelves or racks are sturdy and capable of supporting the weight of containers to prevent accidents or spills.
Follow all local regulations and guidelines for the storage of hazardous chemicals.
Monitor storage conditions regularly to ensure compliance with safety requirements and product integrity.
POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO)
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a polysorbate-type nonionic surfactant used in many commercial, household and pharmaceutical products.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is composed of 20 repeated units of polyethylene glycol via ethoxylation.


CAS Number: 9005-64-5
EC Number: 500-018-3
MDL Number: MFCD00165986
Chemical Family: Polyethoxylated Sorbitan Ester, Polysorbates
Chemical Name: Sorbitan monolaurate, ethoxylated 1 - 6.5 moles ethoxylated
E number: E432 (thickeners, ...)
Chemical formula: C58H114O26



SYNONYMS:
Polysorbate 20, Polyoxyethylene (20) sorbitan monolaurate, 7T1F30V5YH, Polyethylene glycol (44) sorbitan monolaurate, Polyethylene glycol (80) sorbitan monolaurate, Polyethylene glycol 4000 sorbitan monolaurate, Polyethylene glycol 500 sorbitan monolaurate, Polyoxyethylene (10) sorbitan monolaurate, Polyoxyethylene (44) sorbitan monolaurate, Polyoxyethylene (75) sorbitan monolaurate, Polyoxyethylene (80) sorbitan monolaurate, Polyoxyethylene 20 sorbitan monolaurate, FEMA No. 2915, POE 20 Sorbitan monolaurate, PSML, Polyethylene glycol 2000 Sorbitan Laurate, Polyoxyethylene (4) sorbitan monolaurate, Sorbimacrogol laurate 300, Sorbitan monolaurate, ethoxylated, 20s, Polysorbate, Armotan pml-20, CCRIS 699, DTXSID3031949, Dxewmulse poe-sml, E-432, EC 500-018-3, Emsorb 6915, Glycosperse L-20, Glycosperse L-20X, HSDB 7824, Hodag psml-20, INS NO.432, INS-432, Liposorb L-20, PEG-20 SORBITAN, PEG-40 Sorbitan laurate, POLY(OXY-1,2-ETHANEDIYL) DERIVATIVE, POLYSORBATA 20, POLYSORBATE 20 (EP MONOGRAPH), POLYSORBATE 20 (II), POLYSORBATE 20 (MART.), POLYSORBATE 20 (USP-RS), Peg sorbitan laurate, Peg-20 sorbitan laurate, Poly(oxy-1,2-ethanediyl) derivatives, Polyoxyethylene (40) sorbitan laurate, Polyoxyethylene 20 laurate, Polysorbate 20s, Polysorbatum 20, Protasorb L-20, Sorbitan, monododecanoate, poly(oxy-1,2-ethanediyl) derivatives, Sorbitan, monododecanote, poly(oxy-1,2-ethanediyl) derivatives, Sorbitan, monolaurate, polyoxyethylene derivs., TWEEN-20, UNII-239B50Y732, UNII-31JQ3WOL8T, UNII-4Z93U4C2WN, UNII-59IO08SBZU, UNII-7T1F30V5YH, UNII-I42X3Q0FMF, Montanox 20, Polysorbate 20, PEG(20)sorbitan monolaurate, Alkest TW 20, Tween 20, Polyoxyethylene 20 sorbitan fatty acid ester, Tween 20, Surfacare T20, Sorbitan monolaureate, ethoxylated, Sorbitan, monododecanoate, poly(oxy-1, 2-ethanediyl) derivs., Polyoxyethylene sorbitanmonolaurate, polysorbate 2, Tween 20, Polyoxyethylene sorbitan laurate, Polyoxyethylene sorbitan laurate, Polyoxyethylene sorbitan monolaurate, Emulsifier T-20, Polyoxyethylene (20) Sorbitan Alcohol monolaurate, Polysorbate 20, TWEEN 20, SORBITAN MONOLAURATE, capmul, PEG-80 SORBITAN LAURATE, Polisorbate 20- PS 20, POLYSORBATE 21, POLYOXYETHYLENE SORBITAN MONOLAUREATE, POLYETHYLENE GLYCOL SORBITAN MONOLAURATE, Tween 20, POLYOXYETHYLENE (20) SORBITAN MONOLAURATE, Polisorbate 20- PS 20, Tween 20 (Trademark of ICI America, Inc.), Tween 20?, Tween 20 1LT, Twain 20, TWEEN(R) 20 Vetec(TM) reagent grade, 40%, ACRYL/BIS 37.5:1 PREMIXED PWD ULTRA PURE, TWEEN 20 ELECTROPHORESIS GRADE



Polysorbate 20 (Sorbitan monolaurate 20 EO) (common commercial brand names include Kolliphor PS 20, Scattics, Alkest TW 20, Tween 20, and Kotilen-20) is a polysorbate-type nonionic surfactant formed by the ethoxylation of sorbitan monolaurate.
Its stability and relative nontoxicity allows Polysorbate 20 (Sorbitan monolaurate 20 EO) to be used as a detergent and emulsifier in a number of domestic, scientific, and pharmacological applications.


As the name implies, the ethoxylation process leaves the molecule with 20 repeat units of polyethylene glycol; in practice these are distributed across 4 different chains, leading to a commercial product containing a range of chemical species.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is the INCI name for sorbitan monolaurate, which has found its use primarily in the cosmetics industry but also performs similar functions in the production of pharmaceuticals, food, agricultural chemicals, and household and industrial cleaners.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is the abbreviation of “polyoxyethylene (20) sorbitan monolaurate”.
As a nonionic surfactant and emulsifier, Polysorbate 20 (Sorbitan monolaurate 20 EO) is applied to products in the cosmetics and food industries.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is an emulsifying agent consisting of laurate esters of sorbitol consisting of the monoester condensed with ethylene oxide (polyoxyethylene-20 sorbitan monostearate).


Polysorbate 20 (Sorbitan monolaurate 20 EO) is a nonionic surfactant and emulsifier, commonly used to solubilize essential and fragrance oils in water based products.
Also known as TWEEN20, Polysorbate 20 (Sorbitan monolaurate 20 EO)'s non-irritating and ideal for bath, body, facial cleansers and baby products.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is a polysorbate-type nonionic surfactant used in many commercial, household and pharmaceutical products.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is composed of 20 repeated units of polyethylene glycol via ethoxylation.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a wetting agent in food products, as well as washing agent, stabilizer and solubilizer in labratory assays and industrial applications.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is also an excipient that stabilizes emulsions and suspensions in pharmaceutical products and lubricant in ophthalmic solutions.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a polyoxyethylene 20 sorbitan monolaurate, which can be used as an emulsifier for o/w emulsions and is also a highly effective solubiliser for lipophilic oils.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is suitable for cosmetic and pharmaceutical applications and complies with the current European Pharmacopoeia.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is oily, yellow to brownish-yellow, clear or slightly opalescent liquid.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is soluble in water, ethanol, ethyl acetate and methanol, practically insoluble in fatty oils and liquid paraffin.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is an emulsifying agent consisting of laurate esters of sorbitol consisting of the monoester condensed with ethylene oxide (polyoxyethylene-20 sorbitan monostearate).
HLB Value of Polysorbate 20 (Sorbitan monolaurate 20 EO) is 16-17 (gives oil-in-water emulsions).


Polysorbate 20 (Sorbitan monolaurate 20 EO) is non-ionic emulsifier (enables water and oil to mix).
Emulsifying efficacy is increased further when combined with cetyl alcohol or sorbitan stearate.
Polysorbate 20 (Sorbitan monolaurate 20 EO) acts as dispersing agent and anti-static thickener.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is very useful as solubilizer and stabilizer of essential oils.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a polysorbate-type non-ionic surfactant formed by ethoxylation of sorbitan before the addition of oleic acid.
Its stability and relative non-toxicity allow Polysorbate 20 (Sorbitan monolaurate 20 EO) to be used as a detergent and emulsifier in a wide range of household, scientific and pharmacological applications.


In cosmetics, Polysorbate 20 (Sorbitan monolaurate 20 EO) is a general-purpose hydrophilic, non-ionic surfactant.
Polysorbates are used in a variety of products including skin fresheners, skin care products, skin cleansing products, make-up foundations and bases, shampoos, permanent waves and fragrance powders.


Polysorbate ingredients help other ingredients dissolve in a solvent in which they would not normally dissolve.
They also help to form emulsions by reducing the surface tension of emulsified materials.
Polysorbates have high hydrophilic-lipophilic balance (HLB) values, indicating that they will work by dispersing the oil in the water rather than the water in the oil.


Many emulsifiers have HLB values ranging from 1.8 to 18.6 and polysorbates from 9.6 to 16.7.
Due to their non-ionic nature, polysorbates are relatively insensitive to hard water and electrolytes and can be used in both acidic and basic formulations.
Tween 20, whose common commercial names includes Alkest TW 20 and Polysorbate 20 (Sorbitan monolaurate 20 EO), is a mild nonionic surfactant formed by the ethoxylation of sorbitan before the addition of lauric acid which is a medium-chain fatty acid found mainly in coconut oil.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is a hydrophilic nonionic surfactant generally used as emulsifiers, dispersing agent and solubilizer.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a polymer composed of PEG-ylated sorbitan, where the total number of poly(ethylene glycol) units is 20 (w + x + y + z = 20) and a single terminal is capped by a dodecanoyl group.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is a surfactant and emulsifier used in cleaners and personal care products.
The ethoxylation of sorbitan produces Polysorbate 20 (Sorbitan monolaurate 20 EO).
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a synthetic component that improves the texture and sensory feel of formulations in cosmetics and skincare.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is a non-ionic surfactant based on natural raw material.
It is an ethoxylated sorbitan monolaurate derivative named INCI Polysorbate 20 (Sorbitan monolaurate 20 EO).
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a clear yellow to brown liquid with a freezing point of -5°C.


Polysorbate 20 (Sorbitan monolaurate 20 EO) contains 99% of the active substance.
Polysorbate 20 (Sorbitan monolaurate 20 EO) dissolves well in water and methanol.
Polysorbate 20 (Sorbitan monolaurate 20 EO) has the ability to create an O/W emulsion (oil in water).


Polysorbate 20 (Sorbitan monolaurate 20 EO) is a mild nonionic surfactant formed by the ethoxylation of sorbitan before the addition of lauric acid which is a medium-chain fatty acid found mainly in coconut oil.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is permitted to be utilized as the emulsifier, detergent, dispersant, solvent and stabilizer, etc.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is Clear, yellow to yellow-green viscous liquid.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is an effective solubilizer for essential oils and perfumes.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a substance not classified according to the CLP regulation and is biodegradable in the natural environment.


Peroxide formation in Polysorbate 20 (Sorbitan monolaurate 20 EO) is of particular concern because it may degrade the purity, performance and appearance of the material and promote degradation of other compounds in a given formulation.
High purity grades of Polysorbate 20 (Sorbitan monolaurate 20 EO) minimize peroxide formation by eliminating the bleaching step during manufacturing and by transporting and storing the material in an inert atmosphere, e.g. under nitrogen.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is a ubiquitous nonionic surfactant employed in the formulation of countless cosmetic and personal care products.
Polysorbate 20 (Sorbitan monolaurate 20 EO) can function as a solubilizer, emulsifier, stabilizer, dispersing agent or a wetting agent, among other functions.


Beyond personal care, Polysorbate 20 (Sorbitan monolaurate 20 EO) has similar functions in the formulation and processing of pharmaceuticals, food and beverage products, agricultural chemicals and household and industrial cleaning products.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a complex mixture of laurate esters of sorbitol and sorbitol anhydrides (sorbitans), consisting predominantly of the monoester condensed with approximately 20 moles of ethylene oxide.


This representative form of Polysorbate 20 (Sorbitan monolaurate 20 EO) has an average molecular weight of 1,228 g/mol.
Polysorbate 20 (Sorbitan monolaurate 20 EO) may be synthesized by one of two possible routes: anhydrization and ethoxylation of sorbitol with 20 moles of EO to form sorbeth-20, followed by esterification with lauric acid;4, 6 or anhydrization of sorbitol and esterification with lauric acid to form sorbitan laurate (SL), followed by ethoxylation with 20 moles of EO.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is a complex material due to the number of possible compounds and structural isomers that may form during its synthesis.
For example, in the first step, sorbitol is anhydridized using either an acidic or alkaline catalyst to form sorbitan, the cyclic ether of sorbitol obtained upon the loss of an equivalent of water.


The major product is 1,4-sorbitan (typically ≥ 85%), yet three other isomers may also form in minor amounts; namely the 3,6-, 2,5- and 1,5-sorbitans.
Further anhydridization of the 1,4- and 3,6-sorbitans inevitably occurs during sorbitan synthesis and results in the formation of small amounts of isosorbide.


If isosorbide is the desired product, it is obtained in high yield simply by driving the anhydridization of the 1,4- and 3,6-sorbitans with longer reaction times, higher temperatures, and/or by reacting under vacuum.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is a polyoxyethylene sorbitol ester, with a calculated molecular weight of 1,225 daltons, assuming 20 ethylene oxide units, 1 sorbitol, and 1 lauric acid as the primary fatty acid.
Fatty acid constituents of Tween 20, Polysorbate 20, Polyoxyethylene Sorbitan 20, Emulsifier T-20 are determined by transesterification to yield fatty acid methyl esters, which are identified by gas chromatography.



USES and APPLICATIONS of POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
Polysorbate 20 (Sorbitan monolaurate 20 EO) hydrophilic nonionic surfactants widely used as emulsifiers for stable oil-in-water pharmaceutical emulsions.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is also used as solubilizers for various substances, including essential oils and oil-soluble vitamins, and as wetting agents for oral or parenteral suspensions.


Polysorbate 20 (Sorbitan monolaurate 20 EO) has been found to help increase the oral bioavailability of drug molecules that are substrates of p-glycoprotein.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used Pharmaceutical, Food Additive, Detergent, Emulsifier, Wetting Agent, Viscosity Modifier, Dispersing Agent, Solubilizer & Stabilizer, Cosmetic Products, Skin Care Products, Bath Oils, Shampoos, Body Sprays, Face Wash, Lotions, and Deodorants.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is used as a fragrance solubiliser and stabilizer and have a soothing effect on the skin.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used as an emulsifier, foaming agent and whipping agent, oil-in-water (O/W) emulsions, and also as a dispersants/solubilizers of oils


Polysorbate 20 (Sorbitan monolaurate 20 EO) is used as a washing agent in immunoassays, such as Western blots and ELISAs.
Polysorbate 20 (Sorbitan monolaurate 20 EO) helps to prevent non-specific antibody binding.
In this major application, Polysorbate 20 (Sorbitan monolaurate 20 EO) is dissolved in Tris-buffered saline or phosphate buffered saline at dilutions of 0.05% to 0.5% v/v.


These buffers are used for washes between each immunoreaction, to remove unbound immunologicals, and eventually for incubating solutions of immunoreagents (labeled antibodies) to reduce nonspecific background.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used to saturate binding sites on surfaces (i.e., to coat polystyrene microplates, generally combined with proteins such as BSA).


Polysorbate 20 (Sorbitan monolaurate 20 EO) is used to stabilize proteins purified protein derivative (PPD) solution used in skin testing for tuberculosis exposure.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used as a solubilizing agent of membrane proteins.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is used for lysing mammalian cells, at a concentration of 0.05% to 0.5% v/v, generally combined with other detergents, salts and additives.
Pharmaceutical applications: Polysorbate 20 (Sorbitan monolaurate 20 EO) is used as an excipient in pharmaceutical applications to stabilize emulsions and suspensions.


Industrial and domestic applications: Polysorbate 20 (Sorbitan monolaurate 20 EO) is used in many brands of baby wipes.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used by philatelists to remove stamps from envelopes and to remove residues from stamps, without harming the stamp itself.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is also used as wetting agent in rubber balers in the elastomer industry.
Polysorbate 20 (Sorbitan monolaurate 20 EO) has been used as a shape directing agent to synthesize spheroidal magnetite nanoassemblies
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used as a wetting agent in flavored mouth drops such as Ice Drops, helping to provide a spreading feeling to other ingredients like SD alcohol and mint flavor.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is used for solubilizing membrane proteins during isolation and purification.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used as a wetting agent in flavored mouth drops.
Polysorbate 20 (Sorbitan monolaurate 20 EO) acts as a washing agent in Western blots and ELISAs and prevents antibody binding.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is a solubilizing agent of membrane proteins.
In pharmaceutical chemistry, Polysorbate 20 (Sorbitan monolaurate 20 EO) is used as an excipient to stabilize emulsions and suspensions.
Further, Polysorbate 20 (Sorbitan monolaurate 20 EO) is used as a dispersing agent, stabilizer, lubricator and also used in creams, salves, ointments, protective creams, balms, pomades, lipsticks, mascaras and glosses.


When used in food, Polysorbate 20 (Sorbitan monolaurate 20 EO) is commonly used as an indirect additive instead of a direct additive.
In biological techniques and sciences, Polysorbate 20 (Sorbitan monolaurate 20 EO) has a broad range of applications.
Polysorbate 20 (Sorbitan monolaurate 20 EO) can also be used as a solubilising agent for a variety of substances, including essential oils and oil-soluble vitamins, and as a wetting agent in the formation of oral and parenteral suspensions.


Polysorbate 20 (Sorbitan monolaurate 20 EO) has been found to be useful in improving the bioavailability of drug molecules that are P-glycoprotein substrates.
In the food industry, Polysorbate 20 (Sorbitan monolaurate 20 EO) is used as a humectant in flavored mouth drops such as ice drops, helping to disperse other ingredients such as SD alcohol and mint flavor.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is almost universally used in the food industry and has been approved by the FDA as a direct and indirect food additive for human consumption, subject to certain restrictions.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is approved for direct use in all types of food as a synthetic flavoring.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is approved for indirect addition to all foods as an adhesive component.
For example, Polysorbate 20 (Sorbitan monolaurate 20 EO) is added to ice cream in concentrations of up to 0,5 % to make the ice cream softer and easier to handle and to increase its resistance to melting.


The addition of Polysorbate 20 (Sorbitan monolaurate 20 EO) prevents milk proteins from completely coating the fat droplets.
This allows them to form chains and networks which trap air in the mixture and give a firmer texture that holds Polysorbate 20 (Sorbitan monolaurate 20 EO)'s shape as the ice cream melts.


In industry, Polysorbate 20 (Sorbitan monolaurate 20 EO) is also used as a wetting agent in the manufacture of rubber presses in the elastomer industry.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used in the textile industry as antistatic agents, fibre lubricants and finishing emulsifiers.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is allowed to be used as the emulsifier, detergent, dispersant, solvent and stabilizer, etc.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is used in a number of fields such as pharmaceutical, chemical, food, textile and other industries due to its stability and relative non-toxicity.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is widely applied in biological techniques and sciences, which can be added to buffers and reagents for immunohistochemistry, such as Western blots and ELISAs, helping to prevent non-specific antibody binding, decrease background staining and enhance reagent spreading.


Besides, Polysorbate 20 (Sorbitan monolaurate 20 EO) also has applications in food production as a common food grade additive which are found in many consumables on the market today.
Polysorbate 20 (Sorbitan monolaurate 20 EO) can also be used as a wetting agent in flavored mouth drops such as Ice Drops, in oral or non-gastrointestinal suspensions and in rubber balers in the elastomer industry.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is a solubilizer, emulsifier, viscosity modifier, and stabilizer of essential oils in water.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used as a surfactant, emulsifier, and solubilizer in goods.
The many uses of Polysorbate 20 (Sorbitan monolaurate 20 EO) in personal care, as previously mentioned, are well-known.


Polysorbate 20 (Sorbitan monolaurate 20 EO) was a key material employed by Griffin in pioneering the development of the HLB system for emulsifier selection more than 60 years ago, a system still used today.
With an HLB value of 16.7, Polysorbate 20 (Sorbitan monolaurate 20 EO) is a potent micro-emulsifier for the solubilization of water-insoluble compounds, e.g. active ingredients, fragrance oils, etc., and in combination with SL, it is a highly effective o/w emulsifier.


Like other high-HLB ethoxylated nonionic surfactants, Polysorbate 20 (Sorbitan monolaurate 20 EO) may be used to decrease the irritation potential of harsh detersive surfactants; in fact, it was employed in the development of the first baby shampoo products.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is also used to decrease the viscosity of surfactant solutions, presumably due to its ability to disrupt the formation of entangled worm-like micelles.


Polysorbate 20 (Sorbitan monolaurate 20 EO) has been tested for suitability as a solubilizing agent of membrane proteins and as a blocking reagent in blotting applications.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a nonionic detergent commonly utilized in biochemical applications.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is a frequently used member of the polysorbate family.
Polysorbate 20 (Sorbitan monolaurate 20 EO) has been applied as emulsifying agents for the preparation of stable oil-in-water emulsions.
Polysorbate 20 (Sorbitan monolaurate 20 EO) has applications in pre-extraction of membranes to remove peripheral proteins (applied at two percents for extraction of membrane-bound proteins).


Polysorbate 20 (Sorbitan monolaurate 20 EO) has been used as a blocking agent for membrane based immunoassays at a typical concentration of 0.05%.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is suitable for use as a solubilizing agent of membrane proteins and as a blocking agent in Western blotting as well.


Polysorbate 20 (Sorbitan monolaurate 20 EO) might be utilized for lysing mammalian cells at a concentration of 0.05 to 0.5 percent.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is easily soluble in water, methanol, ethanol, isopropyl alcohol and other solvents, insoluble in animal and mineral oil, with emulsification, diffusion, solubilization, stability and other properties.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is harmless to human body and has no irritation.
In food industry, Polysorbate 20 (Sorbitan monolaurate 20 EO) is mainly used in the production of cake, ice cream and shortening etc.
In other aspects, Polysorbate 20 (Sorbitan monolaurate 20 EO) can be used as emulsifier of mineral oil, solvent of dyestuff, emulsifier of cosmetics, stabilizer of foam, emulsifier, diffuser and stabilizer of pharmaceuticals, and auxiliary of photo emulsion.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is widely applied in biological techniques and sciences, which could be added to buffers and reagents for immunohistochemistry, like Western blots and ELISAs, contributing to prevent non-specific antibody binding, decrease background staining and enhance reagent spreading.


Polysorbate 20 (Sorbitan monolaurate 20 EO) also has applications in food making field as a common food grade additive which are found in various consumables on the market today.
Polysorbate 20 (Sorbitan monolaurate 20 EO) has applications could also be applied as a wetting agent in flavored mouth drops like Ice Drops, in oral or non-gastrointestinal suspensions, and in rubber balers in the elastomer industry.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is widely used in science.
Polysorbate 20 (Sorbitan monolaurate 20 EO) has become an excipient in biopharmaceutical preparations, some of which may have enzymatic activity.
The effect of Polysorbate 20 (Sorbitan monolaurate 20 EO) in biopharmaceuticals is based on its role as a stabiliser.


Therefore, Polysorbate 20 (Sorbitan monolaurate 20 EO) is necessary for the surfactant to maintain its structure intact.
If it becomes autoxidised, a Polysorbate 20 (Sorbitan monolaurate 20 EO) side-chain cleavage will occur and ultimately short-chain acids such as formic acid will form, which may affect the stability of the biopharmaceutical product.


Other pharmaceutical uses include topical analgesics, anti-rheumatic drugs, and in sunscreens.
Like Polysorbate 80, Polysorbate 20 (Sorbitan monolaurate 20 EO) is listed as clarifying agent in ophthalmic preparations and as contact lens cleaners or solvents at concentrations not exceeding 1.0%.


In addition to the said uses, Polysorbate 20 (Sorbitan monolaurate 20 EO) also serves as an emulsifier in fire-resistant hydraulic fluids.
These are primarily HFA, HFB, HFC and HFD-U liquids.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used in many areas like pharmaceutical, chemical, food, textile and other industries due to its stability and relative non-toxicity.


In metalworking, Polysorbate 20 (Sorbitan monolaurate 20 EO) is used as a component of machining fluids.
Polysorbate 20 (Sorbitan monolaurate 20 EO) increases emulsion stability and improves the foaming characteristics of fluids used in metalworking processes.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used products for washing, care and styling of hair.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is used cosmetics for washing and care of the body and face.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used make-up products and makeup removers.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used preparations for hair dyeing and decolourisation.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is used after shave and other alcohol-based products.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used sunscreens,
perfumes, body fragrances.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is used intimate hygiene lotions and gels.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used lip care products, anti-acne preparations, air fresheners, nail polish and nail polish removers.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used fire-resistant hydraulic fluids, oils and cutting liquids, and agrochemicals.


Polysorbate 20 (Sorbitan monolaurate 20 EO) is widely used in the cosmetics industry as an emulsifier in O/W formulations.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is an effective solubilizer for essential oils and perfumes, so it is also used in detergents, including air fresheners.


Polysorbate 20 (Sorbitan monolaurate 20 EO) also acts as a stabilizer for water and water-alcohol formulations, it is thus a component of body and hair care products such as: shampoos, conditioners, lotions, shower gels, hair styling and hair colouring preparations, face moisturizers, sunscreens, anti-wrinkle creams, wet wipes, mouthwashes and antiperspirants.


Polysorbate 20 (Sorbitan monolaurate 20 EO) improves the consistency of cleansing cosmetics, facilitates their application and rinsing, reduces the potential irritating and drying properties of other ingredients in cosmetic preparations.
Polysorbate 20 (Sorbitan monolaurate 20 EO) can also be used as an emulsifier in fire-resistant hydraulic fluids such as HFA, HFB, HFC and HFD-U.


In metalworking, Polysorbate 20 (Sorbitan monolaurate 20 EO) is used as a component of machining formulations, favorably affecting the stability of the emulsion.
In food industry, Polysorbate 20 (Sorbitan monolaurate 20 EO) is mainly used in the production of cake, ice cream and shortening etc.


Polysorbate 20 (Sorbitan monolaurate 20 EO) exhibits resistance in hard water and improves the foaming properties of formulations used in metalworking processes.
In addition, Polysorbate 20 (Sorbitan monolaurate 20 EO) is used in the agrochemicals industry as an emulsifier of pesticide formulations, mainly of type EC, SL, EW.



CHARACTERISTIC OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
Polysorbate 20 (Sorbitan monolaurate 20 EO) is an amber-colored viscous liquid with a slight special odor and slightly bitter taste.
Relative density of Polysorbate 20 (Sorbitan monolaurate 20 EO) is 1.08~1.13, boiling point is 321℃.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is soluble in water, ethanol, methanol and ethyl acetate, insoluble in mineral oil and petroleum ether.
HLB value of Polysorbate 20 (Sorbitan monolaurate 20 EO) is 16.7



CHEMICAL PROPERTIES OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a mixture of laurate partial esters of sorbitol and sorbitol anhydrides condensed with approximately 20 mole of ethylene oxide (C2H4O) for each mole of sorbitol and its mono- and dianhydrides.
Polysorbate 20 (Sorbitan monolaurate 20 EO) has a faint, characteristic odor and a warm, somewhat bitter taste.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a yellow liquid.



PREPARATION OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
Polysorbate 20 (Sorbitan monolaurate 20 EO) is prepared by condensing the partial esters of sorbitol and its anhydrides with ethylene oxide to effect an oxyethylene copolymerization at the free hydroxyl groups.



WHAT IS POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO) MADE OF?
When Sorbitol – a sugar alcohol that can be derived from either a vegetable or a fruit source – is treated with 20 moles of Ethylene Oxide, the chemical reaction results in Sorbitan Monolaurate, which is also known as a Polysorbate 20 (Sorbitan monolaurate 20 EO).
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a water-soluble emulsifier, which binds water and oil together.

Polysorbate 20 (Sorbitan monolaurate 20 EO) is a gentle, oily, liquid cosmetic additive that functions as a nonionic surfactant and wetting agent that enhances the spreadability of liquids.

As a solubilizer, Polysorbate 20 (Sorbitan monolaurate 20 EO) helps both essential oils and fragrance oils to attach to various types of cosmetic bases, including liquid, cream, and gel bases, and thereby prevents the oils and bases from separating.
As a dispersant, Polysorbate 20 (Sorbitan monolaurate 20 EO) also helps to diffuse oils throughout water and to prevent the oils from clumping or settling.

As an anti-static agent, Polysorbate 20 (Sorbitan monolaurate 20 EO) helps to reduce and prevent the buildup of static charges.
Furthermore, Polysorbate 20 (Sorbitan monolaurate 20 EO) is a thickener as well as a viscosity modifier, which helps prevent changes to a product’s viscosity when it is subjected to varying room temperatures, such as extreme cold or heat.



FUNCTION OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
Polysorbate 20 (Sorbitan monolaurate 20 EO) is added to water-based cosmetic formulations as the last component required for ensuring that essential oils and fragrance oils remain blended with the bases to which they are added.
Its soothing, non-irritating quality makes Polysorbate 20 (Sorbitan monolaurate 20 EO) ideal for addition to formulations for bath products, for body and facial cleansers, for baby products, and for other transparent and scented products, as it helps retain both the fragrance and the clarity.



HOW TO USE POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
To incorporate Polysorbate 20 (Sorbitan monolaurate 20 EO) into a formulation, blend it with an equal amount of essential oils or fragrance oils for a 1:1 ratio of solubilizer to scent.
Blend this combination until Polysorbate 20 (Sorbitan monolaurate 20 EO) is a clear mixture, then stir it directly into the base to stabilize the essential oils, to ensure that they remain thoroughly combined in the formula, and to help the final product maintain its transparency.



FUNCTIONS OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
*Emulsifier,
*Solubilizer,
*Surfactant,
*Surfactant (Nonionic)



BASE CHEMICALS FUNCTIONS OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
*Emulsifier,
*Solubilizer,
*Surfactant,
*Surfactant (Nonionic)



GENERAL CHARACTERISTICS OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a non-ionic surfactant and emulsifier used mainly in the cosmetics industry.
The common chemical name of Polysorbate 20 (Sorbitan monolaurate 20 EO) is ethoxylated sorbitan monolaurate.
Polysorbate 20 (Sorbitan monolaurate 20 EO)'s CAS number is 9005-64-5.

Polysorbate 20 (Sorbitan monolaurate 20 EO) is an amphipathic compound consisting of polyoxyethylene sorbitan fatty acid esters.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a complex material given the number of possible compounds and structural isomers that can be formed during synthesis.



CHARACTERISTICS OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
*an oily, viscous liquid,
*lemon to amber in colour,
*faint, distinctive scent,
*soluble in water (cold or hot), methanol, ethanol, ethyl acetate and dioxane,
*insoluble in mineral oil and petroleum ether,
*stable in the presence of weak acids and bases,
*hygroscopic (the material may contain up to 3% water by weight),
*prolonged storage can lead to the formation of peroxides,
*biodegradable,
*highly effective in oil-in-water emulsions (O/W emulsions),
*may reduce the effectiveness of preservatives containing parabens,
*demonstrates resistance in hard water,
*non-toxic.



FUNCTIONS AND EFFECTS OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO) IN COSMETICS:
The most common application for Polysorbate 20 (Sorbitan monolaurate 20 EO) is in all kinds of cosmetic and personal care products.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is used, among others, as a solvent for other components of cosmetic formulations, as an emulsifier that allows combining hydrophilic and hydrophobic components (mainly used in oil-in-water emulsions).

Polysorbate 20 (Sorbitan monolaurate 20 EO) also acts as a stabiliser to the product obtained (preventing phase separation in the emulsion) and the resulting foam.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is also used to reduce the viscosity of surfactant solutions.

Polysorbate 20 (Sorbitan monolaurate 20 EO) is considered a mild cleaning detergent that does not cause irritation.
Polysorbate 20 as a cosmetic ingredient lubricates and soothes the skin.

Polysorbate 20 (Sorbitan monolaurate 20 EO) reduces potential irritating and drying properties of other cosmetic ingredients and was even used in the first shampoos designed for children.

Polysorbate 20 (Sorbitan monolaurate 20 EO) is an effective microemulsifier and solubiliser for dissolving compounds such as essential oils and perfumes in water.
Of all the compounds in the Polysorbate group, Polysorbate 20 (Sorbitan monolaurate 20 EO) has the mildest effect.



PRODUCTS CONTAINING POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
Products containing Polysorbate 20:
*lotions,
*liquid soaps,
*hair conditioners,
*shampoos,
*body scrubs,
*body mists,
*hair styling products,
*mouthwashes.



SOLUBILIZER POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO) FUNCTIONS AS A(N):
*Solubilizer
*Stabilizer
*Emulsifier
*Surfactant
*Wetting Agent
*Dispersant
*Anti-static Agent
*Thickener
*Viscosity Modifier
*Fragrance Ingredient
*Lubricant



POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO) HELPS TO:
*Combine immiscible ingredients
*Gently cleanse and soothe the skin and scalp
*Create foam in cleansing products
*Offer a consistent thoroughly-blended feel to products
*Maintain product transparency and clarity
*Enhance spreadability of product on skin



PROPERTIES AND APPLICATIONS OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
Product advantages:
*strong emulsifying properties,
*content of the active substance in the product at the level of 99%,
*high solubility in water and methanol,
*safe for the water environment,
*biodegradable product.



PROPERTIES OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a clear, yellow to amber colored, slightly viscous liquid nominally supplied as 100% active product; however, most grades of this hygroscopic material may contain up to 3% w/w water.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is readily soluble in cold or hot water and has a cloud point in excess of 100°C at 2% w/w.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is nontoxic, nonirritating and remarkably mild to skin and eyes.



CHEMISTRY AND MANUFACTURE OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
The key commodity feedstocks for Polysorbate 20 (Sorbitan monolaurate 20 EO) are sorbitol, fatty acids with an average alkyl chain length of 12 carbon atoms, and ethylene oxide (EO).

Sorbitol is a six-carbon sugar alcohol obtained from either the catalytic hydrogenation of glucose or the simultaneous hydrolysis and hydrogenation of starch, cotton cellulose or sucrose.

The fatty acids consisting primarily of the C12 lauric acid are usually isolated by distillation of coconut or palm kernel fatty acids, which are obtained from saponification and hydrogenation of the respective oils.
EO is a petrochemical intermediate produced by direct oxidation of ethylene gas using air or oxygen and a silver-based catalyst.



BENEFITS AND APPLICATIONS OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
Polysorbate 20 (Sorbitan monolaurate 20 EO) is a non-ionic surfactant and wetting ingredient that enhances the spreadability of liquid formulations.
Polysorbate 20 (Sorbitan monolaurate 20 EO) acts as a solubilizer, allowing essential oils and aroma oils to adhere to a variety of cosmetic bases, such as liquid, cream, and gel.

Polysorbate 20 (Sorbitan monolaurate 20 EO) also acts as a dispersion, allowing oils to disperse throughout water without clumping or settling.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is an anti-static compound that helps to minimise and prevent static charges from accumulating.
Polysorbate 20 (Sorbitan monolaurate 20 EO)'s both a thickener and a viscosity modifier, which helps keep a product's viscosity stable when it's exposed to extremes in temperature, such as cold or heat.

Its relaxing, non-irritating properties make Polysorbate 20 (Sorbitan monolaurate 20 EO) perfect for use in bath and body products, body and face cleansers, infant products, and other transparent and scented goods, as it helps to preserve both aroma and clarity.



HOW POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO) WORKS:
Polysorbate 20 (Sorbitan monolaurate 20 EO) works by combining and stabilising the oil and water phases of your formulation.
Polysorbate 20 (Sorbitan monolaurate 20 EO) also works as a surfactant, emulsifier, and solubilizer in various cosmetic goods, especially where oils need to be solubilised in water.



CONCENTRATION AND SOLUBILITY OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
Polysorbate 20 (Sorbitan monolaurate 20 EO) is recommended that it should be used at a concentration of 1-20%.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is soluble in water, alcohol, and glycerol but is insoluble in oil.



HOW TO USE POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
Prepare the oil and water phases of your formulation separately.
Heat the oil and water phase using a double boiler.
Blend both the phases together using a mini-mixer or a large mixing brush.
Add Polysorbate 20 (Sorbitan monolaurate 20 EO) to the final phase to provide stability and better texture to your DIY formulation.



FORMULATION GUIDELINES OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
Polysorbate 20 (Sorbitan monolaurate 20 EO) is known to deactivate preservatives (parabens) and antimicrobials due to its propensity to sequester these compounds into its nonionic micelles.
Although parabens are the most notable example, Polysorbate 20 (Sorbitan monolaurate 20 EO) may also deactivate organic acids such as benzoic acid and sorbic acid as well as benzyl alcohol.

In addition, Polysorbate 20 (Sorbitan monolaurate 20 EO) may deactivate antimicrobials such as the cationic surfactants benzalkonium chloride and cetylpyridinium chloride.
Therefore, Polysorbate 20 (Sorbitan monolaurate 20 EO) must be used judiciously and the activity of preservatives and antimicrobials should always be verified via the appropriate efficacy tests when used with Polysorbate 20 (Sorbitan monolaurate 20 EO).



STABILITY AND STORAGE CONDITIONS OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
Polysorbate 20 (Sorbitan monolaurate 20 EO) is stable to electrolytes, weak acids and weak bases; it will gradually saponify in case of strong acids and strong bases.
Its oleate is susceptible to oxidation.
Polysorbate 20 (Sorbitan monolaurate 20 EO) is hygroscopic, check its moisture content before use, and dry if necessary.
Polysorbate 20 (Sorbitan monolaurate 20 EO), like other polyoxyethylene surfactants, will produce peroxides when stored for too long.
Polysorbate 20 (Sorbitan monolaurate 20 EO) should be stored in a sealed container, away from light, in a cool and dry place.



COMMONLY USED AMOUNT AND THE MAXIMUM AMOUNT OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
The World Health Organization has evaluated the acceptable daily intake of polysorbate 20, 40, 60, 65, and 80.
Calculated on the basis of total polysorbate, the daily intake can be as high as 25mg per kilogram of body weight.
The marketed topical emulsion, the maximum dosage in the cream is 6.00%.



SOURCE AND PREPARATION OF POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
This product is polyoxyethylene 20 laurel sorbitan polymerized from laurel sorbitan and ethylene oxide.
Polysorbate is prepared from pear (sugar) alcohol through a three-step reaction.
First, sorbitol is dehydrated to form sorbitan (cyclic sorbitan); sorbitan is esterified with fatty acids, such as oleic acid or stearic acid, to form hexose esters; finally, it reacts with ethylene oxide under the action of a catalyst Generate polysorbate.



PHYSICAL and CHEMICAL PROPERTIES of POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
Melting point: 98.9 °C (decomposition)
Boiling point: 100 °C
Density: 1.11 g/mL at 20 °C
Vapor pressure: <1.4 hPa (20 °C)
FEMA: 2915 | POLYSORBATE 20
Refractive index: n20/D 1.468 (literature value)
Flash point: >230 °F
Storage temperature: Store below +30°C
Solubility: 100 g/L
Form: Viscous liquid
Color: Amber
Specific Gravity: 1.090 to 1.130 (20/20℃)
pH: 6-8 (50g/l, H2O, 20℃)
pH Range: 7
Odor: Mild alcohol odor
Odor Type: Alcoholic

Water Solubility: 100 g/L
Hydrophilic-Lipophilic Balance (HLB): 16.7
Stability: Stable. Incompatible with strong oxidizing agents
Substances Added to Food (formerly EAFUS): POLYSORBATE 20
EWG's Food Scores: 3-8
FDA UNII: PEG-80 SORBITAN LAURATE (239B50Y732), PEG-75 SORBITAN LAURATE (31JQ3WOL8T),
PEG-10 SORBITAN LAURATE (4Z93U4C2WN), POLYSORBATE 21 (59IO08SBZU), POLYSORBATE 20 (7T1F30V5YH)
EPA Substance Registry System: Polysorbate 20 (9005-64-5)
Cosmetics Info: Polysorbate 20
Chemical formula: C58H114O26
Molar mass: 1226 g/mol
Appearance: Clear, yellow to yellow-green viscous liquid
Density: 1.1 g/mL (approximate)
Boiling point: > 100 °C (212 °F; 373 K)
Surface tension:
CMC: 8.04×10^−5 M at 21 °C
HLB: 16.7
Relative Density: About 1.10

Viscosity: About 400 mPa s at 25°C
IUPAC: Polyoxyethylene (20) sorbitan monooleate
INCI: POLYSORBATE 20
CAS: 9005-64-5
Molar mass: 522.70 g/mol
Density: 1.10 g/mL at 20 °C
Solubility: Soluble in water, alcohols, glycerol ethers,
glycols, esters, ketones, aromatic and aliphatic hydrocarbons
CBNumber: CB3462544
Molecular Formula: C26H50O10
Molecular Weight: 522.6692 g/mol
MDL Number: MFCD00165986
MOL File: 9005-64-5.mol
Appearance: Pale yellow clear viscous liquid (estimated)
Assay: 96.00 to 100.00

Food Chemicals Codex Listed: No
Specific Gravity: 1.09100 to 1.09600 @ 25.00 °C
Pounds per Gallon - (estimated): 9.078 to 9.120
Refractive Index: 1.45900 to 1.47000 @ 20.00 °C
Acid Value: 3.00 max. KOH/g
pH Number: 5.71
Flash Point: > 230.00 °F. TCC (> 110.00 °C)
Shelf Life: 24.00 month(s) or longer if stored properly
Storage: Store in cool, dry place in tightly sealed containers,
protected from heat and light
Soluble in: alcohol, oils, water
Appearance at 25ºC: Clear liquid
Active content %: 97
Nature: Nonionic

Acid value mg KOH/gm max: 2
Color gardner: 3
Hydroxyl value mg KOH/gm: 96-108
% Moisture content by KF: 3
pH: 5-7
Saponification value: 40-50
Molecular Formula: C58H114O26
Molecular Weight: 1127.48
Grade: Pharmaceutical Excipients
Description: This product is an amber viscous liquid with a
slight special odor and slightly bitter taste.
UNII: 7T1F30V5YH
Chemical Name: Polyoxyethylene 20 sorbitan monolaurate
CAS Number: 9005-64-5



FIRST AID MEASURES of POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
-Description of first-aid measures:
*After inhalation:
Fresh air.
*In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with water/ shower.
*After eye contact:
Rinse out with plenty of water.
Remove contact lenses.
*After swallowing:
Make victim drink water (two glasses at most).



ACCIDENTAL RELEASE MEASURES of POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
-Environmental precautions:
Do not let product enter drains.
-Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.
Take up with liquid-absorbent material.
Dispose of properly.
Clean up affected area.



FIRE FIGHTING MEASURES of POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
-Extinguishing media:
*Suitable extinguishing media:
Foam
Carbon dioxide (CO2)
Dry powder
*Unsuitable extinguishing media:
For this substance/mixture no limitations of extinguishing agents are given.
-Further information:
Prevent fire extinguishing water from contaminating surface water or the ground water system.



EXPOSURE CONTROLS/PERSONAL PROTECTION of POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use Safety glasses.
*Skin protection:
Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0,4 mm
Break through time: 480 min
Splash contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 30 min
*Respiratory protection:
Not required.
-Control of environmental exposure:
Do not let product enter drains.



HANDLING and STORAGE of POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Tightly closed.
Store at room temperature.
-Specific end use(s):
No other specific uses are stipulated



STABILITY and REACTIVITY of POLYSORBATE 20 (SORBITAN MONOLAURATE 20 EO):
-Chemical stability:
The product is chemically stable under standard ambient conditions (room temperature) .


Polysorbate 20,80
Tween® 20; Polyoxyethylene Sorbitan Monolaurate; POE (20) sorbitan monolaurate; Polysorbate 20; Polysorbate 80; Tween 80; POE (80) CAS NO: 9005-64-5
POLYSORBATE 21
Polysorbate 40; polyoxyethylene (20) sorbitan monopalmitate; polyoxyethylene sorbitan monopalmitate; Tween 40; Polyethylene glycol sorbitan monopalmitate, Polyoxyethylene sorbitanmonopalmitate CAS NO:9005-66-7
Polysorbate 40
cas no : 9005-67-8, E434 Polysorbate 40, Tween 40, Monopalmitate de sorbitane polyoxyéthylène,Ses fonctions (INCI); polyethyleneglycol sorbitan monostearate; Sorbitan monostearate, ethoxylated. Les polysorbates sont des produits synthétiques fabriqués à partir de sorbitol (E420) dans un processus en trois étapes. De l'eau est d'abord retirée du sorbitol pour former un sorbitane, qui est ensuite partiellement estérifié avec un acide gras naturel tel que l'acide laurique (en ce qui concerne E432), oléique (ecqc. E433), palmitique (ecqc. E434) ou stéarique (ecqc. E435, E436) — cf. acides gras E570. Enfin, de l'oxyde d'éthylène est ajouté en présence d'un catalyseur pour donner du polysorbate Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile) Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation
POLYSORBATE 60
POLYSORBATE 60 Description: Emulsifying agent consisting of sorbitol, ethylene oxide & stearic acid (polyoxyethylene-60 sorbitan monostearate), stearic acid is derived from vegetable oil, purity > 95%. Yellow-brownish viscous liquid, no or weak odor. Soluble in water & alcohols, insoluble in oils. HLB value: 14.9 (gives oil-in-water emulsions). CAS: 9005-67-8 INCI Name: Polysorbate-60 Benefits: Non-ionic, multi-purpose emulsifier (enables water and oil to mix) Emulsifying efficacy is increased when combined with cetyl alcohol or sorbitan stearate Acts as dispersing agent and anti-static thickener Very useful as solubilizer and stabilizer of essential oils Use: Warm to melt before use. Typical use level is 1 - 10%. For external use only. Applications: Lotions, creams, hair loss treatments, skin cleansers, makeup products requiring emulsification. Country of Origin: USA Raw material source: Sorbitol, vegetable oils Manufacture: Polysorbate 60 is obtained by esterification of sorbitol with one or three molecules of a fatty acid including stearic, lauric, oleic, and palmitic acid. Animal Testing: Not animal tested GMO: GMO-free Vegan: Does not contain animal-derived components Polysorbate 60 Jump to navigationJump to search Polysorbate 60 60, a compound used as a food additive in some pudding mixes to prevent scorching during preparation Polysorbate 60s are a class of emulsifiers used in some pharmaceuticals and food preparation. They are often used in cosmetics to solubilize essential oils into water-based products. Polysorbate 60s are oily liquids derived from ethoxylated sorbitan (a derivative of sorbitol) esterified with fatty acids. Common brand names for Polysorbate 60s include Scattics, Alkest, Canarcel.[1] Contents 1 Examples 2 See also 3 References 4 External links Examples Polysorbate 60 20 (polyoxyethylene (20) sorbitan monolaurate) Polysorbate 60 40 (polyoxyethylene (20) sorbitan monopalmitate) Polysorbate 60 60 (polyoxyethylene (20) sorbitan monostearate) Polysorbate 60 80 (polyoxyethylene (20) sorbitan monooleate) The number 20 following the 'polyoxyethylene' part refers to the total number of oxyethylene -(CH2CH2O)- groups found in the molecule. The number following the 'Polysorbate 60' part is related to the type of fatty acid associated with the polyoxyethylene sorbitan part of the molecule. Monolaurate is indicated by 20, monopalmitate is indicated by 40, monostearate by 60, and monooleate by 80. Polysorbate 60 or Tween 60, the full name polyoxyethylene (20) sorbitan monostearate, is an ingredient made from sorbitol, stearic acid (C18) and ethylene oxide. It is primarily used as an emulsifier in food (the European food additive number E435) and a solubilizer & surfactant in cosmetics. Like other polysorbates, the number 60 after polysorbate means the type of fatty acid, here is monostearate; the number 20 following polyoxyethylene indicates the total number of oxyethylene groups in the molecule structure. How is it made? According to the FDA, polysorbate 60 is manufactured by reacting stearic acid with sorbitol to obtain sorbitan monostearate first and then condensed with ethylene oxide. (1) What is it made of? As the commercial food grade stearic acid usually contains palmitic acid, so polysorbate 60 is a mixture of ethoxylated ethers of stearic and palmitic acid esters of sorbitol and its mono- and dianhydrides and other related compounds. Specification Other Names Tween 60 CAS Number 9005-67-8 Chemical formula C64H126O26 Molecular Weight 1312 Properties Appearance A lemon to orange-coloured oily liquid or semi-gel at 25°C. (2) Structure Polysorbate 60 chemical structure Image Source Hydrophilic groups: long polyoxyethylene groups Lipophilic group: stearic acid Hydrophile-Lipophile Balance (HLB) 14.9, gives oil-in-water emulsions, O/W. It is more lipophilic than polysorbate 20 and 40 due to the long length of the fatty acids – stearic acid, compared with other fatty acids, lauric acid (C14) and palmitic acid (C16) that linked to the polyoxyethylene sorbitan part of the molecule, respectively. Solubility Soluble in water, insoluble in mineral oil and vegetable oils. Soluble in ethyl acetate and toluene. What’re the Uses of Polysorbate 60? Polysorbate 60 is a synthetic multi-ingredient that can be used as a surfactant, emulsifier, solubilizer, stabilizer in food, cosmetics and personal care products. Food Polysorbate 60 helps water-based and oil-based ingredients blend easily and prevent their separation in food. Polysorbate 60 and 80 are mostly used in food among the category of polysorbates, but the latter is used more than 60 in food. As a high HLB emulsifier, its food grade can be blended with a low HLB emulsifier (e.g. sorbitan stearate, mono and diglycerides) to provide a suitable HLB value for the various food uses, either oil in water, or water in oil emulsion. Cosmetics Its general purpose in cosmetics is to mix water and oil together. Polysorbate 60 functions as a surfactant, emulsifier, solubilizer and dispersing agent. Some of its applications as follows: Help wash away body dirties by lowering the surface tension on the skin when used in shampoos and body washes. Distribute essential oils, fragrances and colorants evenly in water. Following cosmetic products may with it: Lotions Creams Hair products Skin care products Makeup products Is Polysorbate 60 Safe to Eat? Yes, it has been approved as a safe ingredient by the U.S. Food and Drug Administration (FDA) and European Food Safety Authority (EFSA), as well as the Joint FAO/WHO Expert Committee on Food Additives (JECFA). FDA Polysorbate 60 may be safely used in food with multifunctions, such as an emulsifier, foaming agent, dough conditioner, dispersing agent, and surfactant & wetting agent. The following food may contain it and the maximum usage (3): Whipped edible oil topping 0.4% Shortenings and edible oils 1% Ice cream 0.1% Dressings 0.3% Cakes and cake mixes, icings and fillings 0.46% Sugar confection coatings 0.2% Vegetable fat-water emulsions 0.4% Yeast-leavened bakery products 0.5% EFSA Polyoxyethylene (20) sorbitan monostearate (E435) is listed in Commission Regulation (EU) No 231/2012 as an authorised food additive and categorized in “Additives other than colours and sweeteners” (4). Safety re-evaluation in 2018 Its safety was re-evaluated in 2018, together with other polysorbates (20, 40, 65, 80). (5) UK Food Standards Agency Categorized in “Emulsifiers, stabilisers, thickeners and gelling agents” (6) Food Standards Australia New Zealand It is approved ingredient in Australia and New Zealand with the code number 435. (7) JECFA Function Class: food additives, emulsifier. (8) Acceptable daily intake: ADI “0-25mg/kg bw” set in 1973. (9) What are the possible Side Effects of Polysorbate 60? When we talk about the side effects of polysorbates, mostly focus on two carcinogens, one is ethylene oxide (Group 1), the raw material for the production; another one is 1,4-dioxane (Group 2B), a by-product of polysorbate ethoxylation. However, the safety of these two substances in polysorbates have been approved due to the very few assay. See also: Details of the safety of two carcinogens Frequently asked questions What is the difference with polysorbate 65? Polysorbate 65, the full name polyoxyethylene (20) sorbitan tristearate. There are three stearic acids in its molecule structure while polysorbate 60 only has one. Is it Natural? It is not natural as it is made from chemical synthesis between sorbitan fatty acid with ethylene oxide. Is it Halal? Yes, polysorbate 60 would be halal if the fatty acid stearic acid is sourced from vegetable oils. Is it Vegan? Yes, it is vegan if the fatty acid stearic acid derived from vegetable oils which are suitable for vegetarians. Stearic acid used to synthesize polysorbate 60 may also come from animal sources. Conclusion Now you may have a knowledge of the emulsifier – polysorbate 60 (E435), from the following aspects: Production process Uses Safety Side effects FAQs: compare with polysorbate 65 and 80 I’m probably forgetting some information about polysorbate 60, and if you have any questions or remarks about this additive, feel free to let me know in the comments. Polysorbate 60 Messages Overview(active tab) Safety Resources What Is It? Polysorbate 20 and the other Polysorbate ingredients (Polysorbate 21, Polysorbate 40, Polysorbate 60, Polysorbate 61, Polysorbate 65, Polysorbate 65, Polysorbate 80, Polysorbate 81, Polysorbate 85) are a series of general purpose hydrophilic, nonionic surfactants. The Polysorbates are used in a variety of products including skin fresheners, skin care products, skin cleansing products, makeup bases and foundations, shampoos, permanent waves and fragrance powders. Why is it used in cosmetics and personal care products? The Polysorbate ingredients help other ingredients to dissolve in a solvent in which they would not normally dissolve. They also help to form emulsions by reducing the surface tension of the substances to be emulsified. Scientific Facts: Polysorbates are surfactants that are produced by reacting the polyol, sorbitol, with ethylene oxide. The number in the name of the Polysorbate indicates the average number of moles of ethylene oxide that has been reacted per mole of sorbitol. The polyoxyethylenated sorbitan is then reacted with fatty acids obtained from vegetable fats and oils such as lauric acid, palmitic acid, stearic acid and oleic acid. Polysorbates function to disperse oil in water as opposed to water in oil Safety Information: The Food and Drug Administration (FDA) permits Polysorbate 20, Polysorbate 60, Polysorbate 65 and Polysorbate 80 to be directly added to food as adjuvants of flavoring agents or as multipurpose additives. FDA also includes Polysorbate 20, Polysorbate 40, Polysorbate 60, Polysorbate 65, Polysorbate 80 and Polysorbate 85 on its list of indirect food additives as emulsifiers and/or surface active agents. Polysorbate 80 has FDA approval as an ophthalmic demulcent and may be used in Over-The-Counter (OTC) ophthalmic drug products. The safety of Polysorbate 20, Polysorbate 21, Polysorbate 40, Polysorbate 60, Polysorbate 61, Polysorbate 65, Polysorbate 80, Polysorbate 81 and Polysorbate 85 has been assessed by the Cosmetic Ingredient Review (CIR) Expert Panel. The CIR Expert Panel evaluated the scientific data and concluded that Polysorbate 20, 21, 40, 60, 61, 65, 80, 81 and 85 were safe as cosmetic ingredients. More safety Information: CIR Safety Review: The Polysorbates are a series of polyoxyethylenated sorbitan esters that differ with respect to the number of polymerized oxyethylene subunits and the number and type of fatty acid groups present. The CIR Expert Panel reviewed data showing that Polysorbates were not mutagens or complete carcinogens. The available data indicated that these ingredients were used in numerous preparations without clinical reports of significant adverse effects. FDA: Link to Code of Federal Regulations for information about the direct food uses for Polysorbate 20, Polysorbate 60, Polysorbate 65 and Polysorbate 80 FDA: Link to Code of Federal Regulations for information about the indirect food uses for Polysorbates FDA: Link to Code of Federal Regulations for information about the OTC drug uses for Polysorbate 80 The Polysorbate ingredients may be used in cosmetics and personal care products marketed in Europe according to the general provisions of the Cosmetics Regulation of the European Union. The Joint FAO/WHO Expert Committee on Food Additives has established an Acceptable Daily Intake of 0-25 mg/kg body weight for the sum of Polyoxyethylene (20) sorbitan esters of lauric, oleic, palmitic, and stearic acid. Description: Emulsifying agent consisting of sorbitol, ethylene oxide & stearic acid (polyoxyethylene-60 sorbitan monostearate), stearic acid is derived from vegetable oil, purity > 95%. Yellow-brownish viscous liquid, no or weak odor. Soluble in water & alcohols, insoluble in oils. HLB value: 14.9 (gives oil-in-water emulsions). CAS: 9005-67-8 INCI Name: Polysorbate-60 Benefits: Non-ionic, multi-purpose emulsifier (enables water and oil to mix) Emulsifying efficacy is increased when combined with cetyl alcohol or sorbitan stearate Acts as dispersing agent and anti-static thickener Very useful as solubilizer and stabilizer of essential oils Use: Warm to melt before use. Typical use level is 1 - 10%. For external use only. Applications: Lotions, creams, hair loss treatments, skin cleansers, makeup products requiring emulsification. Country of Origin: USA Raw material source: Sorbitol, vegetable oils Manufacture: Polysorbate 60 is obtained by esterification of sorbitol with one or three molecules of a fatty acid including stearic, lauric, oleic, and palmitic acid. Animal Testing: Not animal tested GMO: GMO-free Vegan: Does not contain animal-derived components Polysorbate 60 Jump to navigationJump to search Polysorbate 60 60, a compound used as a food additive in some pudding mixes to prevent scorching during preparation Polysorbate 60s are a class of emulsifiers used in some pharmaceuticals and food preparation. They are often used in cosmetics to solubilize essential oils into water-based products. Polysorbate 60s are oily liquids derived from ethoxylated sorbitan (a derivative of sorbitol) esterified with fatty acids. Common brand names for Polysorbate 60s include Scattics, Alkest, Canarcel.[1] Contents 1 Examples 2 See also 3 References 4 External links Examples Polysorbate 60 20 (polyoxyethylene (20) sorbitan monolaurate) Polysorbate 60 40 (polyoxyethylene (20) sorbitan monopalmitate) Polysorbate 60 60 (polyoxyethylene (20) sorbitan monostearate) Polysorbate 60 80 (polyoxyethylene (20) sorbitan monooleate) The number 20 following the 'polyoxyethylene' part refers to the total number of oxyethylene -(CH2CH2O)- groups found in the molecule. The number following the 'Polysorbate 60' part is related to the type of fatty acid associated with the polyoxyethylene sorbitan part of the molecule. Monolaurate is indicated by 20, monopalmitate is indicated by 40, monostearate by 60, and monooleate by 80. Polysorbate 60 or Tween 60, the full name polyoxyethylene (20) sorbitan monostearate, is an ingredient made from sorbitol, stearic acid (C18) and ethylene oxide. It is primarily used as an emulsifier in food (the European food additive number E435) and a solubilizer & surfactant in cosmetics. Like other polysorbates, the number 60 after polysorbate means the type of fatty acid, here is monostearate; the number 20 following polyoxyethylene indicates the total number of oxyethylene groups in the molecule structure. How is it made? According to the FDA, polysorbate 60 is manufactured by reacting stearic acid with sorbitol to obtain sorbitan monostearate first and then condensed with ethylene oxide. (1) What is it made of? As the commercial food grade stearic acid usually contains palmitic acid, so polysorbate 60 is a mixture of ethoxylated ethers of stearic and palmitic acid esters of sorbitol and its mono- and dianhydrides and other related compounds. Specification Other Names Tween 60 CAS Number 9005-67-8 Chemical formula C64H126O26 Molecular Weight 1312 Properties Appearance A lemon to orange-coloured oily liquid or semi-gel at 25°C. (2) Structure Polysorbate 60 chemical structure Image Source Hydrophilic groups: long polyoxyethylene groups Lipophilic group: stearic acid Hydrophile-Lipophile Balance (HLB) 14.9, gives oil-in-water emulsions, O/W. It is more lipophilic than polysorbate 20 and 40 due to the long length of the fatty acids – stearic acid, compared with other fatty acids, lauric acid (C14) and palmitic acid (C16) that linked to the polyoxyethylene sorbitan part of the molecule, respectively. Solubility Soluble in water, insoluble in mineral oil and vegetable oils. Soluble in ethyl acetate and toluene. What’re the Uses of Polysorbate 60? Polysorbate 60 is a synthetic multi-ingredient that can be used as a surfactant, emulsifier, solubilizer, stabilizer in food, cosmetics and personal care products. Food Polysorbate 60 helps water-based and oil-based ingredients blend easily and prevent their separation in food. Polysorbate 60 and 80 are mostly used in food among the category of polysorbates, but the latter is used more than 60 in food. As a high HLB emulsifier, its food grade can be blended with a low HLB emulsifier (e.g. sorbitan stearate, mono and diglycerides) to provide a suitable HLB value for the various food uses, either oil in water, or water in oil emulsion. Cosmetics Its general purpose in cosmetics is to mix water and oil together. Polysorbate 60 functions as a surfactant, emulsifier, solubilizer and dispersing agent. Some of its applications as follows: Help wash away body dirties by lowering the surface tension on the skin when used in shampoos and body washes. Distribute essential oils, fragrances and colorants evenly in water. Following cosmetic products may with it: Lotions Creams Hair products Skin care products Makeup products Is Polysorbate 60 Safe to Eat? Yes, it has been approved as a safe ingredient by the U.S. Food and Drug Administration (FDA) and European Food Safety Authority (EFSA), as well as the Joint FAO/WHO Expert Committee on Food Additives (JECFA). FDA Polysorbate 60 may be safely used in food with multifunctions, such as an emulsifier, foaming agent, dough conditioner, dispersing agent, and surfactant & wetting agent. The following food may contain it and the maximum usage (3): Whipped edible oil topping 0.4% Shortenings and edible oils 1% Ice cream 0.1% Dressings 0.3% Cakes and cake mixes, icings and fillings 0.46% Sugar confection coatings 0.2% Vegetable fat-water emulsions 0.4% Yeast-leavened bakery products 0.5% EFSA Polyoxyethylene (20) sorbitan monostearate (E435) is listed in Commission Regulation (EU) No 231/2012 as an authorised food additive and categorized in “Additives other than colours and sweeteners” (4). Safety re-evaluation in 2018 Its safety was re-evaluated in 2018, together with other polysorbates (20, 40, 65, 80). (5) UK Food Standards Agency Categorized in “Emulsifiers, stabilisers, thickeners and gelling agents” (6) Food Standards Australia New Zealand It is approved ingredient in Australia and New Zealand with the code number 435. (7) JECFA Function Class: food additives, emulsifier. (8) Acceptable daily intake: ADI “0-25mg/kg bw” set in 1973. (9) What are the possible Side Effects of Polysorbate 60? When we talk about the side effects of polysorbates, mostly focus on two carcinogens, one is ethylene oxide (Group 1), the raw material for the production; another one is 1,4-dioxane (Group 2B), a by-product of polysorbate ethoxylation. However, the safety of these two substances in polysorbates have been approved due to the very few assay. See also: Details of the safety of two carcinogens Frequently asked questions What is the difference with polysorbate 65? Polysorbate 65, the full name polyoxyethylene (20) sorbitan tristearate. There are three stearic acids in its molecule structure while polysorbate 60 only has one. Is it Natural? It is not natural as it is made from chemical synthesis between sorbitan fatty acid with ethylene oxide. Is it Halal? Yes, polysorbate 60 would be halal if the fatty acid stearic acid is sourced from vegetable oils. Is it Vegan? Yes, it is vegan if the fatty acid stearic acid derived from vegetable oils which are suitable for vegetarians. Stearic acid used to synthesize polysorbate 60 may also come from animal sources. Conclusion Now you may have a knowledge of the emulsifier – polysorbate 60 (E435), from the following aspects: Production process Uses Safety Side effects FAQs: compare with polysorbate 65 and 80 I’m probably forgetting some information about polysorbate 60, and if you have any questions or remarks about this additive, feel free to let me know in the comments. Polysorbate 60 Messages Overview(active tab) Safety Resources What Is It? Polysorbate 20 and the other Polysorbate ingredients (Polysorbate 21, Polysorbate 40, Polysorbate 60, Polysorbate 61, Polysorbate 65, Polysorbate 65, Polysorbate 80, Polysorbate 81, Polysorbate 85) are a series of general purpose hydrophilic, nonionic surfactants. The Polysorbates are used in a variety of products including skin fresheners, skin care products, skin cleansing products, makeup bases and foundations, shampoos, permanent waves and fragrance powders. Why is it used in cosmetics and personal care products? The Polysorbate ingredients help other ingredients to dissolve in a solvent in which they would not normally dissolve. They also help to form emulsions by reducing the surface tension of the substances to be emulsified. Scientific Facts: Polysorbates are surfactants that are produced by reacting the polyol, sorbitol, with ethylene oxide. The number in the name of the Polysorbate indicates the average number of moles of ethylene oxide that has been reacted per mole of sorbitol. The polyoxyethylenated sorbitan is then reacted with fatty acids obtained from vegetable fats and oils such as lauric acid, palmitic acid, stearic acid and oleic acid. Polysorbates function to disperse oil in water as opposed to water in oil Safety Information: The Food and Drug Administration (FDA) permits Polysorbate 20, Polysorbate 60, Polysorbate 65 and Polysorbate 80 to be directly added to food as adjuvants of flavoring agents or as multipurpose additives. FDA also includes Polysorbate 20, Polysorbate 40, Polysorbate 60, Polysorbate 65, Polysorbate 80 and Polysorbate 85 on its list of indirect food additives as emulsifiers and/or surface active agents. Polysorbate 80 has FDA approval as an ophthalmic demulcent and may be used in Over-The-Counter (OTC) ophthalmic drug products. The safety of Polysorbate 20, Polysorbate 21, Polysorbate 40, Polysorbate 60, Polysorbate 61, Polysorbate 65, Polysorbate 80, Polysorbate 81 and Polysorbate 85 has been assessed by the Cosmetic Ingredient Review (CIR) Expert Panel. The CIR Expert Panel evaluated the scientific data and concluded that Polysorbate 20, 21, 40, 60, 61, 65, 80, 81 and 85 were safe as cosmetic ingredients. More safety Information: CIR Safety Review: The Polysorbates are a series of polyoxyethylenated sorbitan esters that differ with respect to the number of polymerized oxyethylene subunits and the number and type of fatty acid groups present. The CIR Expert Panel reviewed data showing that Polysorbates were not mutagens or complete carcinogens. The available data indicated that these ingredients were used in numerous preparations without clinical reports of significant adverse effects. FDA: Link to Code of Federal Regulations for information about the direct food uses for Polysorbate 20, Polysorbate 60, Polysorbate 65 and Polysorbate 80 FDA: Link to Code of Federal Regulations for information about the indirect food uses for Polysorbates FDA: Link to Code of Federal Regulations for information about the OTC drug uses for Polysorbate 80 The Polysorbate ingredients may be used in cosmetics and personal care products marketed in Europe according to the general provisions of the Cosmetics Regulation of the European Union. The Joint FAO/WHO Expert Committee on Food Additives has established an Acceptable Daily Intake of 0-25 mg/kg body weight for the sum of Polyoxyethylene (20) sorbitan esters of lauric, oleic, palmitic, and stearic acid.
POLYSORBATE 61
Polysorbate 65; polyethyleneglycol sorbitan tristearate; glycosperse TS-20 KFG; hetsorb TS-20; liposorb TS-20; lonzest STS-20; nikkol TS-30V; poe-20 sorbitan tristearate; polyethyleneglycol sorbitan tristearate; polyoxyethylene (20) sorbitan tristearate; rheodol TW-S320V; tween 65 CAS NO:9005-71-4
Polysorbate 65
POLYSORBATE 65; E436 Polysorbate 65, Tween 65, Tristéarate de sorbitane polyoxyéthylène; Polyoxyethylene (20) sorbitan tristearate (436); N° CAS : 9005-71-4; Origine(s) : Synthétique; Nom INCI : POLYSORBATE 65. Classification : Composé éthoxylé, Tensioactif non ionique. Ses fonctions (INCI): Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile). Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Les polysorbates sont des additifs de synthèse fabriqués à partir de sorbitol (E420). Il s'agit d'émulsifiants efficaces employés dans les produits laitiers, le lait de coco, les soupes, les sauces et dans les compléments alimentaires. Différentes études, réalisées sur des souris, suggèrent que la consommation de ces additifs pourrait augmenter la perméabilité de la barrière intestinale et favoriser ainsi les maladies inflammatoires chroniques de l'intestin, une adiposité accrue (syndrome métabolique) et le développement de diabètes. Ces additifs pourraient également perturber l'équilibre de la flore intestinale, favorisant les réactions auto-immunes. L'inflammation intestinale chronique occasionnée par ces émulsifiants pourrait enfin promouvoir l'apparition d'un cancer du côlon. Exemples de produits d'emploi: Produits laitiers aromatisés, lait de coco, crèmes glacées, compléments alimentaires, chewin-gum, pâtisseries, bouillons et potages, sauces notamment. Use: Emulsifier for pharmaceuticals and cosmetics, Stabilizer for color materials, Stabilizer for emulsion polymerizations, Emulsifier for adjuvant of agrochemicals, Emulsifier for water based metal process cutting oils, Surface coating type antistatic agents. An oily liquid derived from PEG-ylated sorbitan (a derivative of sorbitol) esterified with fatty acids. Known Names: PEG(65)sorbitan monolaurate, Alkest TW 65, Tween 65 . Molecular Formula: C58H114O26; Applications: pharmaceutical, food additive, detergent, emulsifier, wetting agent
Polysorbate 80
Polysorbate 80; Polyoxyethylene (20) sorbitan monooleate; Montanox 80; Alkest TW 80; Tween 80; PS 80 cas no: 9005-65-6
POLYSORBATE 80
Polysorbate 80, is a synthetic compound that is widely applied in a variety of fields, including foods, medicines, and cosmetics.
In food production, Polysorbate 80 is commonly used as a defoamer for the fermenting process of some wines and as a emulsifier in ice-cream or “puddings” to keep the creamy texture without separating.
Polysorbate 80 is also extensively applied in pharmaceutical industry, where it can be found in some vaccines, vitamins and supplements.

CAS: 9005-65-6
MF: C24H44O6
MW: 428.600006103516
EINECS: 500-019-9

Polysorbate 80 is an effective excipient to stabilize aqueous formulations of medications for parenteral administration and to improve the consistency of gel capsules, thus to make pills disperse in the stomach.
Besides, Polysorbate 80 commonly serve as a surfactant and solubilizer in the production of soaps and cosmetics, which is effective to help dissolve ingredients and make products look creamier and more attractive.

In laboratory, Polysorbate 80 is occasionally used for a test to identify the phenotype of a strain or isolate, such as mycobacteria.
A polymer composed of PEG-ylated sorbitan, where the total number of poly(ethylene glycol) units is 20 (w + x + y + z = 20) and a single terminal is capped by an oleoyl group.
Polysorbate 80 is a nonionic surfactant and emulsifier often used in pharmaceuticals, foods, and cosmetics.
Polysorbate 80 is a viscous, water-soluble yellow liquid.
Polysorbate 80 is an emulsifier and solubiliser that is used to blend oil and water together.

Polysorbate 80 is most commonly used in room sprays and bath bombs.
This water-soluble emulsifier is a must-have product for DIY bath bombs and bath oil.
Polysorbate 80 helps oil and color mix into the water rather than pooling on top.
Polysorbate 80 can also be used as a co-emulsifier in lotion.
Polysorbate 80's best for mixing heavier carrier oils.

Polysorbate 80 Chemical Properties
Melting point: -25 °C
Boiling point: >100°C
Density: 1.08 g/mL at 20 °C
Vapor pressure: Refractive index: n20/D 1.473
FEMA: 2917 | POLYSORBATE 80
Fp: >230 °F
Storage temp.: -20°C
Solubility: DMSO (Soluble), Methanol (Slightly)
Form: viscous liquid
Color: Amber
Specific Gravity: 1.080 (25/4℃)
PH Range: 6
Odor: mild alcoholic
PH: 5-7 (50g/l, H2O, 20℃)
Odor Type: alcoholic
Water Solubility: 5-10 g/100 mL at 23 ºC
Merck: 14,7582
Hydrophilic-Lipophilic Balance (HLB): 10
LogP: 4.392 (est)
EPA Substance Registry System: Polysorbate 80 (9005-65-6)

Polysorbate 80 is a polyethylene sorbitol ester, with a calculated molecular weight of 1,310 daltons, assuming 20 ethylene oxide units, sorbitol, and 1 oleic acid as the primary fatty acid.
Polysorbate 80 is a series of nonionic surfactants derived from sorbitan esters.
They are soluble or dispersible in water but differ widely in organic and oil solubilities.
Polysorbate 80 has been widely used in biochemical applications including: solubilizing proteins, isolating nuclei from cells in culture,5 growing of tubercule bacilli,6 and emulsifying and dispersing substances in medicinal and food products.

Polysorbate 80 has little or no activity as an anti-bacterial agent1 except it has been shown to have an adverse effect on the antibacterial effect of methyl paraben and related compounds.
Polysorbates have been reported to be incompatible with alkalis, heavy metal salts, phenols, and tannic acid.
They may reduce the activity of many preservatives.
Polysorbate 80 has a faint, characteristic odor and a warm, somewhat bitter taste.
Polysorbate 80 is a mixture of oleate partial esters of sorbitol and sorbitol anhydrides condensed with approximately 20 mole of ethylene oxide (C2H4O) for each mole of sorbitol and its mono- and dianhydrides.

Polysorbate 80 is derived from polyethoxylated sorbitan and oleic acid.
The hydrophilic groups in Polysorbate 80 are polyethers also known as polyoxyethylene groups, which are polymers of ethylene oxide.
In the nomenclature of Polysorbate 80, the numeric designation following polysorbate refers to the lipophilic group, in this case, the oleic acid (see polysorbate for more detail).

Characteristics
Tween 80, commercially known as Polysorbate-80, is a viscous, water-soluble Yellow to amber liquid derived from polyethoxylated sorbitan and oleic acid.
Polysorbate 80 is structurally similar to the (polyethylene) glycols and used both in injections (0.8-8.0%) and in oral suspension (0.375% w/v).
A number of anticancer drugs can be formulated by Polysorbate 80.
Typical examples include etoposide and minor groove-binding cyclopropylpyrroloindole analogues like carzelesin.

Uses
Polysorbate 80 is a general purpose mid-range HLB, ethoxylated, nonionic surfactant suggested for use in textile chemicals (emulsifier, lubricant), household products and cosmetic formulations (o/w emulsifier, viscosity modifier).
Polysorbate 80 is used as an antistat for PVC and as an antifog for PP, PE, PVC, PS.
Polysorbate 80 is used as an emulsifier (ice cream, whipped topping) and as a solubilizing and dispersing agent in pickles and special vitamin-mineral preparations.

Polysorbate 80 is the trade name of a detergent that can be useful in identifying mycobacteria that possess a lipase that splits the compound into oleic acid and polyoxyethylated sorbitol.
Polysorbate 80 is used as an additive for cell culture media.
Polysorbate 80 has numerous effects, e.g. increasing the transformation frequency of Brevibacterium lactofermentum or enhancing the secretion of acid and alkaline phosphatase by Neurospora crassa.

The main use of Polysorbate 80 is to help other ingredients dissolve in something they wouldn’t normally be able to dissolve in.
For example, Polysorbate 80 helps essential oils dissolve in water, which is great for making a room spray.

Polysorbate 80 is used as an emulsifier, wetting agent, penetrant, diffusing agent, etc.
Polysorbate 80 is also used as a component of the cotton and viscose curtain oil.
Polysorbate 80 is used as an emulsifier in the production of polyurethane foam.
The food industry used as ice cream emulsifier, the amount of 0.1% butter, the general oil in the amount of about 1%.

Food
Polysorbate 80 is used as an emulsifier in foods.
For example, in ice cream, Polysorbate 80 is added up to 0.5% (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.
Adding Polysorbate 80 prevents milk proteins from completely coating the fat droplets.
Polysorbate 80 allows them to join in chains and nets, which hold air in the mixture, and provide a firmer texture that holds its shape as the ice cream melts.

Health and Beauty
Polysorbate 80 is also used as a surfactant in soaps and cosmetics (including eyedrops), or a solubilizer, such as in a mouthwash.
The cosmetic grade of Polysorbate 80 may have more impurities than the food grade.

Medical
Polysorbate 80 is a surfactant and solubilizer used in a variety of oral and topical pharmaceutical products.
Polysorbate 80 is an excipient that is used to stabilize aqueous formulations of medications for parenteral administration, and used as an emulsifier in the making of the antiarrhythmic amiodarone.
Polysorbate 80 is also used as an excipient in some European and Canadian influenza vaccines.
Influenza vaccines contain 2.5 μg of Polysorbate 80 per dose.

Polysorbate 80 is found in many vaccines used in the United States, including the Janssen COVID-19 vaccine.
Polysorbate 80 is used in the culture of Mycobacterium tuberculosis in Middlebrook 7H9 broth.
Polysorbate 80 is also used as an emulsifier in the estrogen-regulating drug Estrasorb.
Polysorbate 80 is also used in granulation for stabilization of drugs and excipients when IPA binding.

Laboratory
Some mycobacteria contain a type of lipase (enzyme that breaks up lipid molecules); when these species are added to a mixture of Polysorbate 80 and phenol red, they cause the solution to change color, so Polysorbate 80 is used as a test to identify the phenotype of a strain or isolate.
On RODAC agar plates used in microbiological control, Polysorbate 80 counteracts disinfectants often found on sampled surfaces, thereby allowing the microbes found on these surfaces to grow.

Biochem/physiol Actions
Polysorbate 80 is used as emulsifiers, dissolving agents and stabilizer for essential oils, topical application and medical infusions including intravenous, subcutaneous or intramuscular administration.

Mechanism of Action
Polysorbate 80 is one of the primary components of protein formulations.
This drug inhibits interfacial damage of the protein molecule that undergoes mechanical stress during shipping and handling.
Polysorbate 80 also affects the formulation photostability.
Exposure to light of Polysorbate 80 aqueous solution results in peroxide generation, which in turn may lead to oxidation of the susceptible amino acid residues in the protein molecule 6.

One study on rats found that Polysorbate 80 increased apical to basolateral membrane permeability of digoxin in Caco-2 cells suggesting that Polysorbate 80 is an in vitro inhibitor of P-glycoprotein.
Polysorbate 80 concluded that PS 80 may influence in vivo absorption of P-gp substrates, and this could be translated to human applications 5.

Toxicity
In general, study results of the polysorbates demonstrated no carcinogenicity and genotoxicity.
In repeated-dose toxicity studies, diarrhea was observed as the major symptom of toxicity 18. Some studies, however, show conflicting findings.
In a 2-year dietary study of polysorbate 80 in rats, a higher incidence of adrenal medullary pheochromocytomas was found, mainly in male rats 18.
Polysorbate 80 is used as a solubilizing agent in IV infusions of the antiarrhythmic drug amiodarone.

Rare case reports of liver toxicity have been published suggesting Polysorbate 80 may contribute to liver toxicity with the IV formulation of amiodarone.
The package labeling of amiodarone warns that Polysorbate 80 is also known to leach DEHP (dioctyl phthalate) from PVC and dosing recommendations must be followed closely.
Polysorbate 80 was found that maternal toxicities such as loose stool, suppression of weight gain and reduced intake were seen, and poor lactation was noted in some studies of mother rats administered 7.5% solutions of polysorbates 18.

Synonyms
9005-65-6
2-[2-[3,4-bis(2-hydroxyethoxy)oxolan-2-yl]-2-(2-hydroxyethoxy)ethoxy]ethyl octadec-9-enoate
DTXSID10864155
2-{2-[3,4-Bis(2-hydroxyethoxy)tetrahydro-2-furanyl]-2-(2-hydroxyethoxy)ethoxy}ethyl 9-octadecenoate
CHROMOGENIC SELECTIVE E.COLI 55MM
TRYPTONE SOY BROTH 120X15ML
TRYPTONE SOY BROTH 20X15ML
TWEEN(R) 80 Vetec(TM) reagent grade
CCA COLIFORMS CHROMOGENIC A. (ISO) 55MM
armotanpmo-20
atlox1087
atlox8916tf
Tween 80
Tween-80
Tween 81
Tween-81
atlox1087
atlox8916tf
Tween(R) 80
armotanpmo-20
Emulsifier T-80
Emulsifier T-81
Sorbitan monooleate ethoxylate
CHROMOGENIC SELECTIVE E.COLI 55MM
Polyoxyethylenesorbitan monooleate
TWEEN(R) 80 Vetec(TM) reagent grade
CCA COLIFORMS CHROMOGENIC A. (ISO) 55MM
3,6-anhydro-2,4,5-tris-O-(2-hydroxyethyl)-1-O-{2-[(9E)-octadec-9-enoyloxy]ethyl}hexitol
2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[1-[3,4-bis[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-(2-hydroxyethoxy)ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]tetrahydrofuran-2-yl]-2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[2-[(E)-nonadec-10-enyl]peroxyethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethoxy]ethanol
POLYSORBATE 80
Polysorbate 80 is a thick yellow liquid.
Polysorbate 80 is characterized by high viscosity.
Polysorbate 80 is very soluble in water, lower aliphatic alcohols and benzene, while it is poorly soluble in fats.
Polysorbate 80 is biodegradable in the natural environment.


CAS Number: 9005-65-6
EC Number: 500-019-9
Chemical formula: C64H124O26


Polysorbate 80 is an amber liquid with a faint characteristic odor.
Polysorbate 80 is also called Tween 80 and Polysorbate 80.
Polysorbate 80 is obtained from animal and vegetable oils.


Polysorbate 80 is soluble in water, insoluble in oil.
Polysorbate 80 is produced by the ethoxylation of a molecule called sorbitan.
Polysorbate 80 is a nonionic surfactant and emulsifier often used in foods and cosmetics.


Polysorbate 80, also known as PEG 80 and Polyoxyethylene Sorbitan Monooleate, is a polyoxyethylene derivative of sorbitan and olive oil in the form of oleic acid.
Polysorbate 80, one using area widely food emulsifier, named TW80 as well, yellow liquid, cas no. Is : 9005-65-6, E code is E433, Slightly bitter, soluble in water, ethanol, ethyl acetate and toluene, insoluble in mineral oils and vegetable oils.


Polysorbate 80 also dissolves well in isopropyl and ethyl alcohol, benzene.
Polysorbate 80 (Polysorbate 80) is an amber/golden-colored water-soluble viscous liquid.
Polysorbate 80 has a molecular formula of C64H124O26.


Polysorbate 80 is a viscous, water-soluble yellow liquid.
Polysorbate 80 is the ethoxylated sorbitan esters which are manufactured by the reaction among sorbitol, a specific fatty acid, and ethylene oxide (an average of 20 polymerized ethylene oxide per molecule of polysorbate 80).


Sorbitan is the dehydrated form of sorbitol, a sugar alcohol naturally found in some fruits.
Polysorbate 80, (=Tween 80), also known as Polyoxyethylene Sorbitan Monooleate, is a nonionic emulsifier and surfactant and used in cosmetics and foods.
Ethoxylation is a chemical reaction that adds ethylene oxide to a substrate, in this case sorbitan.


Sorbitan reacts with 80 ethylene oxide units, which hence “80” in the ingredient’s name.
Polysorbate 80 derivative is a hydrophilic, non-ionic surfactant used as an emulsifier.
Polysorbate 80 is considered a UVCB substance (substance of unknown or variable composition, complex reaction products or biological materials).


Polysorbate 80 is a liquid substance, oily and slightly viscous.
Polysorbate 80's ability to mix water-based and oil-based ingredients well (with a high approximate HLB value 15).
At room temperature, Polysorbate 80 is in the form of pale-yellow to amber oily liquid.


Polysorbate 80 is an O/W emulsifier with its HLB value of 15.0.
In skin care products, polysorbate 80, also known as Tween 80, is considered a safe and non-toxic chemical .
Polysorbate 80's a vicous and odourless liquid that's amber-golden in colour.


Polysorbate 80 is soluble in water, ethanol, toluene etc.
Polysorbate 80 - polysorbate, monooleate, nonionic surfactant.
Polysorbate 80 is obtained from sorbitol and fatty acids olive oil chemically.


Polysorbate 80 is also a viscosity agent with the viscosity 300–500 centistokes (@25°C).
Polysorbate 80 is made from polyethoxylated sorbitan (chemical compounds formed by dehydrating sugar alcohol) combined with oleic acid, a fatty acid contained in animal and vegetable fats.


The color of Polysorbate 80 can be from light yellow to bright amber.
The smell of Polysorbate 80 is not strong, characteristic.
The final products are free from genetically modified organisms and of vegetable origin.


Taking into account the distinctive properties of the food stabilizer Polysorbate 80, it belongs to the group of emulsifiers and stabilizers.
Polyoxyethylene sorbitan monooleate, one using area widely food emulsifier, named TW80 as well, yellow liquid, E code is E433, Slightly bitter, soluble in water, ethanol, ethyl acetate and toluene.


In Organic Solvents:
Soluble in most solvents, such as ethanol, methanol, ethyl acetate and toluene.
The critical micelle concentration of Polysorbate 80 in pure water is reported as 0.012 mM.
Based on Polysorbate 80 group types evaluated, Polysorbate 80 is likely to biodegrade, has a low potential to bioaccumulate and, based on Polysorbate 80's nonionic surfactant properties will adsorb to soils.


These ingredients work together to form a powerful emulsifier, which means they help liquids of varying densities bind together and avoid separation.
Additionally, Polysorbate 80 is a solubiliser, which means it helps dissolve ingredients that would otherwise be difficult or impossible to dissolve on their own.
From the point of view of chemistry, Polysorbate 80 is an ethoxylated monoester of fatty acid anhydrohexavites.


Polysorbate 80 refers to the type of fatty acid attached to the polyoxyethylene sorbitan part of the molecule, here it is monooleate or oleic acid.
Oleic acid is a monounsaturated fatty acid naturally found in animal fats & oils and vegetable oils.
Commercial food grade oleic acid is not pure and is a mixture of several fatty acids.
Like other fatty acids, oleic acid also present in nature commonly in the form of triglycerides.


The following are the vegetable oils high with oleic acid:
*Olive oil
*Pecan oil
*Canola oil
*Peanut oil
*Macadamia oil
*Sunflower oil
*Grape seed oil
*Sea buckthorn oil
*Sesame oil
*Poppyseed oil
*Manufacturing process


Polysorbate 80 is also a surfactant which is a material that lowers the surface tension of a liquid that makes it easier and smoother to spread.
Because of these characteristics, polysorbate 80 is used for a variety of cosmetics and personal care products.
In the nomenclature of polysorbates, the numeric designation following polysorbate refers to the lipophilic group, in this case the oleic acid (see polysorbate for more detail).


Polysorbate 80, or Tween 80, is the abbreviation of “polyoxyethylene (20) sorbitan monooleate”, is a nonionic surfactant and emulsifier commonly used in food (with the European food additive number E433) and cosmetics mainly due to
Polysorbate 80 is yellow in colour, with little scent.


Polysorbate 80 is a solubiliser and emuslifier.
Polysorbate 80, also known as Polysorbate 80, consists of sorbitol, ethylene oxide, and oleic acid.
The fatty acid used for the production of Polysorbate 80 is oleic acid.


Polysorbate 80 is a sugar alcohol produced by the reduction reaction (or hydrogenation) of glucose which is obtained from maize or tapioca starch.
Polysorbate 80 does not dissolve in mineral oils.
Polysorbate 80 has emulsifying, wetting and foaming properties.


Polysorbates are derived from ethoxylated sorbitan (a derivative of sorbitol) esterified with fatty acids and exist as oily liquids.
EP/USP/NF grade Polysorbate 80 can be used as an excipient that acts as an emulsifier, solubilizing agent or suspension stabilizer in various pharmaceutical formulations, such as in the dosage forms of solid, semi-solid and liquid.


Polysorbate 80 is a surfactant which can also reduce bacterial attachment and inhibit biofilm formation.
Polysorbates are stable to electrolyes and weak acids and bases; gradual saponification occurs with strong acids and bases.
Polysorbates are hygroscopic and should be examined for water content prior to use and dried if necessary.


Also, in common with other polyoxyethylene surfactants, prolonged storage can lead to the formation of peroxides.
Polysorbate 80 can solubilise carrier oils as well as essential oils and fragrances.
Polysorbate 80 is an amber/golden-colored water-soluble viscous liquid.


Polysorbate 80 commercially also known as Tween 80.
The main quality of Polysorbate 80 is water solubility and solubility in vegetable and animal oils.
Polysorbate 80 belongs to O/W emulsifier and Polysorbate 80's HLB value is 15.
The hydrophilic groups in Polysorbate 80 are polyethers also known as polyoxyethylene groups which are polymers of ethylene oxide.


According to the FDA, there are generally two steps in the manufacturing process of Polysorbate 80:
Esterification between oleic acid and sorbitol to obtain sorbitan esters.
Condensation sorbitan esters with ethylene oxide.


The following products may contain Polysorbate 80:
-Bath bombs
-Shampoo
-Body butter
-Soap
-Pharmaceutical


Polysorbate 80 is manufactured from polyethoxylated sorbitan (derived from the dehydration of sorbitol, a sugar alcohol) and oleic acid, a fatty acid found in animal and vegetable fats.
Due to this structure, polysorbate 80 forms an approximate hydrophilic-lipophilic balance of 15.


The final products are free from genetically modified organisms and of vegetable origin.
Polysorbate 80 is manufactured from polyethoxylated sorbitan (derived from the dehydration of sorbitol, a sugar alcohol) and oleic acid, a fatty acid found in animal and vegetable fats.
Due to this structure, Polysorbate 80 forms an approximate hydrophilic-lipophilic balance of 15.


Polysorbate 80 is an emulsifying agent consisting of sorbitol, ethylene oxide & oleic acid (polyoxyethylene-80 sorbitan monooleate), oleic acid is derived from vegetable oil.
Polysorbate 80 can also be produced by reacting sorbitol and ethylene oxide first then esterified with oleic acid;
*Obtaining the mixture of sorbitol and sorbitan by partially dehydrating sorbitol.
*Adding ethylene oxide to the mixture to obtain sorbitan polyethylene ether.
*Reacting it with oleic acid.


Polysorbate 80's saponification value is 45-55.
Polysorbate 80's HLB value is 15 (gives oil-in-water emulsions).
The composition of Polysorbate 80 derivative (CAS No. 9005-65-6) is unknown.
The CAS No. 9005-65-6 is a generic CAS No. that can include at least the following UVCB substance groups:


1. An ethoxylated sorbitan ester of oleic acid with an average of 3 moles of ethylene oxide (e.g., PEG3-sorbitan oleate).
2. A mixture of oleate esters of sorbitol and sorbitol anhydrides, consisting predominantly of the
monoester, condensed with approximately 5 moles of ethylene oxide (e.g., Polysorbate 81).
3. An ethoxylated sorbitan ester of oleic acid with an average of 6 moles of ethylene oxide (e.g., PEG6 sorbitan oleate).
4. An ethoxylated sorbitan ester of oleic acid with an average of 20 moles of ethylene oxide (e.g., PEG-20 sorbitan oleate).
5. A mixture of oleate esters of sorbitol and sorbitol anhydrides, consisting predominantly of the monoester, condensed with approximately 20 moles of ethylene oxide (e.g., Polysorbate 80).


Polysorbates are derived from ethoxylated sorbitan (a derivative of sorbitol) esterified with fatty acids and exist as oily liquids.
These Polysorbates belong to the class of emulsifiers used in pharmaceuticals and food preparations (salad dressing, ice cream, chocolates, baked goods and confectionery).
They are used in cosmetics to solubilize essential oils into water-based products, pharmaceuticals, detergents, paints, and plastic applications.


These Polysorbates surfactants consist primarily of oleic, stearic or lauric fatty acid esters with sorbitol-derived cyclic ethers (sorbitans and sorbides) and further polymerized with approximately 20 molecules of oxirane per molecule of Polysorbates.


Polysorbate 20 (polyoxyethylene (20) sorbitan monolaurate)
Polysorbate 40 (polyoxyethylene (20) sorbitan monopalmitate)
Polysorbate 60 (polyoxyethylene (20) sorbitan monostearate)
Polysorbate 80 (polyoxyethylene (20) sorbitan monooleate)


The number following the 'polysorbates' part reflects the type of fatty acid connected with the polyoxyethylene sorbitan part of the molecule.
Monolaurate is indicated by 20, monopalmitate is indicated by 40, monostearate by 60, and monooleate by 80.
The number 20 following the 'polyoxyethylene' part refers to the total number of oxyethylene -(CH2CH2O)- groups found in the molecule.


These Polysorbates surfactants consist primarily of oleic, stearic or lauric fatty acid esters with sorbitol-derived cyclic ethers (sorbitans and sorbides) and further polymerized with approximately 20 molecules of oxirane per molecule of Polysorbates.
These Polysorbates belong to the class of emulsifiers used in pharmaceuticals and food preparations (salad dressing, ice cream, chocolates, baked goods and confectionery).


The number following the 'polysorbates' part reflects the type of fatty acid connected with the polyoxyethylene sorbitan part of the molecule.
Monolaurate is indicated by 20, monopalmitate is indicated by 40, monostearate by 60, and monooleate by 80.
The number 20 following the 'polyoxyethylene' part refers to the total number of oxyethylene -(CH2CH2O)- groups found in the molecule.



USES and APPLICATIONS of POLYSORBATE 80:
In industry, Polysorbate 80 is used mainly due to its emulsifying properties.
In the nomenclature of polysorbates, the numeric designation following polysorbate refers to the lipophilic group, in this case, the oleic acid.
Polysorbate 80 is used Stabilizer, Emulsifier, Chewing gum, Refreshments, Ice creams, Pastry, Pâtés, Soups, Alcoholic drinks, Fine bakery wares, and Fat emulsions for baking purposes


In addition, Polysorbate 80 acts as a wetting agent or formulation stabilizer.
Polysorbate 80 is used Soups, sauces, Desserts, Cosmetics, Agrochemicals, Textile, Mining industry, Metalworking, and Hydraulic fluids
Polysorbate 80 is mainly used in the cosmetics, textile industry and mining industry.


Polysorbate 80 is used Milk and cream analogues, Edible ices, Desserts, Sugar confectionery, Emulsified sauces, Soups, Chewing gum.
Polysorbate 80 is found in many vaccines used in the United States, including the Janssen COVID-19 vaccine.
Polysorbate 80 specifically is a common fragrance and essential oil solubiliser as well as an emulsifying agent.


Soluble in alcohol and water but not in oil, Polysorbate 80 is characteristically a co-emulsifier that is used to modify the viscosity (i.e. thickness) of a product.
Polysorbate 80 is used Dietary food supplements, Dietetic foods intended for special medical purposes, Dietetic formulae for weight control, and Carriers and solvents for colours, fat-soluble antioxidants and antifoaming agents


Polysorbate 80 is generally used to combine thicker or heavier oils such as sunflower oil, argan oil and other thick carrier oils.
The hydrophilic groups in Polysorbate 80 are polyethers also known as polyoxyethylene groups, which are polymers of ethylene oxide.
Polysorbate 80 is used Flavoured fermented milk products, Milk and cream analogues, Fat emulsions for baking, Sugar confectionery, Chewing gum, Decorations, coatings and fillings, and Fine bakery wares.


Chemistry uses of Polysorbate 80: Polysorbate 80 is derived from polyethoxylated sorbitan and oleic acid.
Medical uses of Polysorbate 80: Polysorbate 80 is a surfactant and solubilizer used in a variety of oral and topical pharmaceutical products.
Polysorbate 80 is also used in granulation for stabilization of drugs and excipients when IPA binding.


Polysorbate 80 is usually added to cosmetic formulations during the oil process which can help to achieve a uniform consistency by allowing different ingredients to mix more thoroughly.
Polysorbate 80 is also used as an excipient in some European and Canadian influenza vaccines.


Influenza vaccines contain 2.5 μg of polysorbate 80 per dose.
Polysorbate 80 is a strongly hydrophilic surface active agent.
Polysorbate 80 helps creams, lotions, and gels remain stable, particularly those made with cold processes.


Polysorbate 80 is an excipient that is used to stabilize aqueous formulations of medications for parenteral administration, and used as an emulsifier in the making of the antiarrhythmic amiodarone.
Polysorbate 80 can be added to a variety of sprays as a fragrance and essential oil dispersal agent.


Polysorbate 80's structure also enables it to fulfil other functions, such as the modification of fat crystallisation.
Bath oils, for example, can be made by mixing Polysorbate 80 with an appropriate liquid.
Polysorbate 80 is used in the culture of Mycobacterium tuberculosis in Middlebrook 7H9 broth.


Polysorbate 80 is also used as an emulsifier in the estrogen-regulating drug Estrasorb.
Pickles: Polysorbate 80 is used as a solubilizer to disperse food flavors and colors.
Vitamin supplements: Polysorbate 80 is used as a solubilizing and dispersing agent in fat-soluble vitamins and vitamin-mineral preparations.


Polysorbate 80 is used as an emulsifier, often in combination with sorbitan esters.
Polysorbate 80 has excellent emulsifying, dispersing and wetting properties.
Polysorbate 80 can be used in food, cosmetic, pharmaceutical, feed, and industry.


Bath bombs, sugar or salt scrubs, and whipping or foaming body creams are all examples of items that contain it.
Polysorbate 80 is also widely used in advanced cosmetics, textile, pharmaceutical industry as a solvent, also widely used in textile, paint, emulsion explosives, pesticides, printing, oil and other industries as emulsifiers, stabilizers, lubricants, softeners, antistatic agents.


Polysorbate 80 is also known for its soothing feeling when it is applied to the skin, making it an excellent cosmetic ingredient for skincare products of all styles and conditions.
Especially for cream chocolate toffee, Polysorbate 80 has obvious anti frosting effect.


Polysorbate 80 can be used alone, and can also be used with food emulsifiers such as glycerides, sucrose esters, etc., to play a synergistic effect.
Polysorbate 80 is used as ice cream, bread, cakes, sweets and other emulsifiers, dispersants and cool drinks.
The dosage is 0.1% to 0.5%, to prevent spatter, food aging, improve quality, gloss, improve taste and softness.


When used on Polysorbate 80's own, Polysorbate 80 is an excellent solubilizer of essential oils, wetting agent, viscosity modifier, and disperser.
Polysorbate 80 is used for external use only.
Polysorbate 80 is used Body washes, hair shampoos, hair loss treatments, lotions, creams, bath oils, solubilizates.


Polysorbate 80 is also part of the adjuvant used in some European and Canadian influenza vaccines.
Polysorbate 80 is also used in the culture of Mycobacterium tuberculosis in Middlebrook 7H9 broth.
Polysorbate 80 is used in cosmetic, food and pharmaceutical industry.


The cosmetic industry exploits Polysorbate 80's amazing ability to make essential and fatty oils water-soluble.
Polysorbate 80 is a surfactant and emulsifier used in cleaners and personal care products.
Polysorbate 80 is also used in bath bombs and bath oils to help the oils disperse into the water.


Polysorbate 80 is a nonionic surfactant and Emulsifier derived from polyethoxylated sorbitan and oleic acid, and is often used in foods.
Polysorbate 80 is often used in food and other products as an emulsifier.
Polysorbate 80 is a super emulsifier and stabilizer that mixes two or more not compatible ingredients not separate, usually oil and water.


Polysorbate 80 is stable and non-toxic used in many household, cosmetic and pharmaceutical products.
Polysorbate 80 is used in formulations with a high amount of oils.
Polysorbate 80 is used as an emulsifier in combination with a variety of other hydrophobic emulsifiers to cover a wide range of O/W and W/O emulsions


Polysorbate 80 is used as an emulsifier in the manufacture of medications for parenteral administration, most notably in the popular anti-arrhythmic amiodarone.
Applications of Polysorbate 80: Body washes, shampoo, bath oils, bath bombs, solubliser, cleansing balms and oils.
Polysorbate 80 liquid, (a viscous, water-soluble yellow liquid), is used as an emulsifier in food manufacture including ice cream.


Polysorbate 80 is worth adding a little tween 80 to the oil, as the mixture can be washed off with plain water.
Polysorbate 80 is the strongest emulsifier among polysorbates and can be used for formulations in which a wide variety of oils or “heavy” vegetable oils must be added.
Polysorbate 80 makes the ice cream smoother and increases the resistance to melting.
By adding polysorbate 80 it prevents milk proteins from completely coating the fat droplets in ice cream.


By doing this Polysorbate 80 allows them to join together and capture air in the mixture.
This provides a firmer texture.
As an astringent, Polysorbate 80 is common in the cosmetics and pharmaceutical industries.


Polysorbate 80 is often used in the production processes of the food industry to increase the shelf life, as well as to sell finished food products.
Polysorbate 80 can also used in the manufacture of lotions, skin creams and hair care products.
When used Polysorbate 80 delivers a medium, fine textured result.


Polysorbate 80 can also be used as a spreading aid for bath oils, adding water dispersibility to anhydrous systems and a stabiliser for oils and fragrances.
Polysorbate 80 is also widely used in industrial productions such as use as a wetting agent and dispersant for photographic film making; as a stabilizer and foaming agent for polyurethane foaming plastic.


Polysorbate 80 is widely used in petroleum exploration and transportation, medicine, cosmetics, paints, textiles, food, and pesticides.
Polysorbate 80 is used as a non-ionic surfactant and oil-in-water emulsifier, as plasticizer in a range of solid dispersions and oral dosage forms.
Polysorbate 80 is used as an emulsifier in the production of polyurethane foam.


The food industry, Polysorbate 80 is used as an emulsifier for ice cream.
The dosage of Polysorbate 80 is 0.1% butter, and the general oil is about 1%.
Polysorbate 80 is a non-ionic, hydrophilic emulsifier with broad pH range applicability and good skin tolerance in topical formulations.


Polysorbate 80 may increase the absorption of fat-soluble substances.
Polysorbate 80 used as emulsifier, stabiliser in a large range of foods including chewing gum, ice cream, soft drinks.
Polysorbate 80 is also used in a wide range of detergents, pharmaceuticals and beauty and skin products.


Polysorbate 80 is used as a flavoring agent, emulsifier, boiler water additive, surface-active agent, and stabilizer or thickener for foods.
Polysorbate 80 is commonly used as a non-ionic detergent for cell lysis.
Polysorbate 80 being a nonionic surfactant is used in soaps and cosmetics (including eyedrops), or as solubilizer in mouthwashes.


In order to get the same wonderful colors you use in your other bath and body products, add Polysorbate 80 at about 2 % (of your total batch) in your liquid stage.
Polysorbate 80 is used as a thickener, antifoam, stabilizer, synthetic sweetener.
This should eliminate any ring around the tub or floating mica that can occur if you don't use Polysorbate 80.


Polysorbate 80 help to extend shelf life, improve the strength and increase volume of baked goods and frozen desserts.
Polysorbate 80 is a surfactant with numerous applications in food, pharmaceutical, and cosmetics; other than that, Polysorbate 80 can also use as an emulsifier for culture medium to reduce the surface tension of the medium, which enhances the growth of cells.


Products including Polysorbate 80 are: shampoos, shower gels, moisturizing creams, face cleansing products, after sun creams, body lotions, foot creams, cleansing milks, liquid soaps, face creams etc.
Polysorbate 80 is used as an emulsifier for pesticide formulations, mainly for EC, SL, EW, ME, WP, WG formulations.


Polysorbate 80 is used in cosmetics, pharmaceuticals, as a lubricant and finish emulsifier for textile and leather manufacture, laboratory reagent, and flavoring; [ECHA REACH Registrations] Permitted for use as an inert ingredient in non-food pesticide products.
Polysorbate 80 is used in cosmetics to solubilize essential oils into water-based products, pharmaceuticals, detergents, paints, and plastic applications.


Polysorbate 80 is mostly used in food among the category of Polysorbates.
Polysorbate 80 is the most commonly used in bakery food production.
The solubility of Polysorbate 80 allows it to assist in dissolving ingredients that would remain solid under normal circumstances.


Polysorbate 80 is found in emulsion explosives as an emulsifier.
The textile industry uses Polysorbate 80 to soften the fibers and improve the efficiency and productivity of the dyeing process.
In foods like ice cream, Polysorbate 80 is added up to 0.5% (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.


Vitamins, tablets, and supplements also contain Polysorbate 80 because of Polysorbate 80's preservative nature.
Polysorbate 80 (or E433) is a non-ionic surfactant and emulsifier find use in foods as emulsifier for salad dressings and chocolates, in cosmetics for preparing skin, facial cleansers and hair care products, and to disperse active ingredients in pharmaceuticals benefiting the pharmacological industry.


Polysorbate 80 (or E433) is a non-ionic surfactant and emulsifier find use in foods as emulsifier for salad dressings and chocolates, in cosmetics for preparing skin, facial cleansers and hair care products, and to disperse active ingredients in pharmaceuticals benefiting the pharmacological industry.
Polysorbate 80 can be used as an emulsifier and stabilizer in various vaccines, as a lubricant in eye drops.


The solubility of Polysorbate 80 allows it to assist in dissolving ingredients that would remain solid under normal circumstances.
Polysorbate 80 is used to dissolve flavorings in fats, as an emulsifier and thickener, as a foaming agent (for products with high acidity) and an antifoam agent (in the production of fats).


In foods like ice cream, Polysorbate 80 is added up to 0.5% (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.
Vitamins, tablets, and supplements also contain Polysorbate 80 because of its preservative nature.


Polysorbate 80 is used as emulsifier, foaming agent, lubricant, solubilizing agent, antistatic agent, washing agent, dispersing agent, degreasing agent and chemical intermediate in the industry.
Polysorbate 80 being a nonionic surfactant is used in soaps and cosmetics (including eyedrops), or as solubilizer in mouthwashes.


Polysorbate 80 is used in cosmetics as a nonionic surfactant (HLB 15) and emulsifier: it helps oil to mix with water to form emulsions, it also allows other ingredients to dissolve better in solvents (solubilized).
In pharmacology, Polysorbate 80 is used as a binder in vaccines, tablets, and vitamin preparations.


Polysorbate 80 is used in multiple cosmetic products.
Polysorbate 80 is used non-ionic, multi-purpose emulsifier (enables water and oil to mix).
For the strong hydrophilicity, Polysorbate 80 can distribute colors (e.g. incorporate mica), fragrances, oils and other ingredients evenly in bath bombs, creams and soaps.


Emulsifying efficacy is increased when combined with cetyl alcohol or sorbitan stearate.
Polysorbate 80 acts as dispersing agent and anti-static thickener.
Polysorbate 80 can be found in the composition of muffins and yoghurts, ice cream, margarine and butter, cream and fat for baking, chewing gum.


Polysorbate 80 is very useful as solubilizer and stabilizer of essential oils.
Polysorbate 80 may be useful as hair growth supplement.
Cosmetics: Cosmetic grade Polysorbate 80 functions as a denaturant, emulsifying, surfactant in cosmetics and personal care products to help blend oil and water.


Polysorbate 80 is an amber/golden-colored viscous liquid used as as an emulsifier or surfactant in foods, medicines, skincare products, vaccines etc.
Polysorbate 80 is used as emulsifier, dispersant, stabilizer, spreading agent, lubricant, softener, antistatic agent, rust inhibitor, finishing agent, viscosity reducer, etc. in detergent production and metal surface anti-rust cleaning.


Polysorbate 80 also acts as a surfactant in soaps and cosmetics.
Polysorbate 80 is used as an (oil in water) emulsifying agent, surfactant or solubilising agent.
Polysorbate 80 is an emulsifier derived from animal fatty acids, and natural oils and used as synthetic flavourings, surfactants, de foaming agents and dough conditioners.


Polysorbate 80 has an HLB (Hydrophilic – Lipophilic Balance) Value of 15 and can be used as a solubiliser for fragrance, essential oils and carrier oils to be incorporated into water or surfactant-based products such as body washes and toners etc.
Polysorbate 80 is used in the food industry as an emulsifier.


In addition, when using the food stabilizer Polysorbate 80 as an emulsifier, the chemical helps prevent the loss of the original consistency as well as the viscosity level of the ready-to-market products.
Polysorbate 80 is soluble in water, partially soluble in fractionated coconut oil and insoluble in glycerine.


Polysorbate 80 is used in creams, shampoos, air fresheners, scrubs, foams, hydrophilic oils, face and hair masks, body sprays and other products that require fragrances, essential or fatty oils to be bound with water.
Polysorbate 80 is regarded as a safe chemical in skincare and is used as an emulsifier to combine oil and water.


Polysorbate 80 is commonly used in food and cosmetics, also with a little application in medicines, vaccines and others.
Polysorbate 80 is used in applications where you need water and oil to combine a prime example would be bath oils where you have oil that you want to disperse in water.
Polysorbate 80 is also used as a component of cotton fiber and viscose curtain tensioning agent.


Polysorbate 80 is best used for vegetable oils that are thicker and heavier.
If you are looking to combine essential oils with water then use Polysorbate 20.
Polysorbate 80 is used as emulsifier, wetting agent, penetrating agent, diffusing agent, etc.


Both Polysorbate 20 and 80 can be used in the same product.
Polysorbate 80 can aid the stability of creams, lotions and gels, especially in those made with cold processed by encourgaing the oils and waters to bond easily.


-Polysorbate 80 is used in cosmetics as:
*stabilizer essential oils;
*emulsifier and solubilizer (helps to ensure that the agent is easily dissolved in water and washed off with water);
*lubricant, moisturizer, antistatic agent, conditioner;
*a soothing agent for the skin;
*hair growth stimulant and baldness remedy.


-Food:
Polysorbate 80 is used as an emulsifier in foods.
For example, in ice cream, Polysorbate 80 is added up to 0.5% (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing Polysorbate 80's resistance to melting.
Adding Polysorbate 80 prevents milk proteins from completely coating the fat droplets.
This allows them to join in chains and nets, which hold air in the mixture, and provide a firmer texture that holds its shape as the ice cream melts.


-Common Usage of Polysorbate 80:
*Emulsifier
*Solubiliser
*Sorbitol
*Stabiliser
*Dispersant


-Polysorbate 80 is used as an emulsifier in foods, particularly in ice cream.
Polysorbate 80 is added to up to 0.5% (v/v) concentration and makes the ice cream smoother and easier to handle, as well as increasing its resistance to melting.
Adding Polysorbate 80 prevents Milk proteins from completely coating the fat droplets.
This allows them to join together in chains and nets, which hold air in the mixture, and provide a firmer texture that holds its shape as the ice cream melts.


-Health and beauty:
Polysorbate 80 is also used as a surfactant in soaps and cosmetics (including eyedrops), or a solubilizer, such as in a mouthwash.
The cosmetic grade of Polysorbate 80 may have more impurities than the food grade.


-Other uses of polysorbate 80:
*Skin Cleansing
*Skin Freshener
*Makeup Bases and Formulations
*Moisture Cream
*Moisture Lotion
*Cleansers
*Shower Gel
*Shampoo
*Bath Bombs


-Butter sauce:
Polysorbate 80 produces the creamy sauce;
Polysorbate 80 enables butter and water not separate; makes the milk solids, salts, flavors, colors and other ingredients distributed evenly in the sauce.


-Ice cream:
*Provide a creamy texture
*Hold fat and water together (or maintain the shape) very well
*Prevent ice crystals formation
*Make ice cream resistant to melt


-Food:
Food grade Polysorbate 80 helps water-based liquids and oils-based ingredients mixed together easily.
Polysorbate 80's common food applications are in ice cream, pickles, vitamins and sauce.


-Laboratory uses of Polysorbate 80:
Some mycobacteria contain a type of lipase (enzyme that breaks up lipid molecules); when these species are added to a mixture of Polysorbate 80 and phenol red, they cause the solution to change color, so this is used as a test to identify the phenotype of a strain or isolate.



BENEFITS OF POLYSORBATE 80:
*Suitable for oral, semi solid and liquid dosage forms as well as softgels
*Plasticizer in a range of solid dispersions and oral dosage forms
*Broad pH range applicability and good skin tolerance in topical formulations
*Solubilizing agent in a variety of pharmaceutical formulations



ADVANTAGES of E433-POLYOXYETHYLENE SORBITAN MONOOLEATE:
-Effective emulsifying properties,
-Solubilization of fragrances and essential oils,
-Prevents the emulsion stratification,
-Dissolves well in water,
-Anti-static,
-Safe for the water environment,



OTHER INDUSTRIES USING POLYSORBATE 80:
In addition to cosmetic use, Polysorbate 80 is an excipient used to stabilize aqueous forms of medicinal products, for parenteral administration or for vaccination.
Polysorbate 80 helps to inhibit surface damage to a particle that is exposed to mechanical stress during transport and handling.
Polysorbate 80 is also one of the most common surfactants currently used in the formulation of protein-based biopharmaceuticals.



PROPERTIES OF POLYSORBATE 80 IN COSMETIC PRODUCTS:
Polysorbate 80 is a skin care ingredient used in cosmetics and personal care products to improve their texture.
Polysorbate 80 gives the cosmetics an appropriate, fluffy consistency.
While the texture of the product is primarily sensory, Polysorbate 80 is also important that it spreads easily, delivering the key ingredients evenly across the skin.

Polysorbate 80 effectively supports the stability of creams, lotions and gels, especially those that are cold processed, stimulating oils and water to bind easily.
Polysorbate 80 is used as a surfactant, emulsifier and solvent, helping to create smooth, easy-to-apply skin and body care products.
As an emulsifier, Polysorbate 80 helps to mix ingredients and prevent them from separating.
Polysorbate 80's solubilizing properties are used in cosmetic preparations.

As a surfactant, Polysorbate 80 increases the solubility of one substance in another.
A substance which would not normally be dissolved in a given solution can be dissolved in the presence of Polysorbate 80.
Thanks to this, Polysorbate 80 becomes effective, for example, to wash off impurities from the skin surface with the use of face washing gels containing ethoxylated sorbitan monooleate.



CLASS of E433-POLYOXYETHYLENE SORBITAN MONOOLEATE:
-Emulsifiers
-Stabilisers
-Thickeners
-Gelling Agents



BENEFITS OF POLYSORBATE 80:
*Non-ionic, multi-purpose emulsifier (enables water and oil to mix)
*Emulsifying efficacy is increased when combined with cetyl alcohol or sorbitan stearate
*Acts as dispersing agent and anti-static thickener
*Very useful as solubilizer and stabilizer of essential oils
*May be useful as hair growth supplement



FUNCTIONS OF POLYSORBATE 80:
*Denaturant:
Polysorbate 80 makes cosmetics unpleasant Mainly added to cosmetics containing ethyl alcohol
*Emulsifying agent:
Polysorbate 80 promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)
*Surfactant:
Polysorbate 80 reduces the surface tension of cosmetics and contributes to the even distribution of the product during use



FUNCTIONS of E433-POLYOXYETHYLENE SORBITAN MONOOLEATE:
1. Binder / Stabilizer:
Retains the physical characteristics of food/cosmetics and ensure the mixture remains in an even state.

2. Emulsifier:
Allows water and oils to remain mixed together to form an emulsion.

3. Gelling Agent / Thickener:
Increases the viscosity by thickening the liquid to give it more texture
Polysorbate 80 is derived from polyethoxylated sorbitan and oleic acid.

Polysorbate 80 is used as an emulsifier in foods (E number 433) such as ice cream, which makes the ice cream smoother and easier to handle, as well as increasing its resistance to melting.
Polysorbate 80 is also used as a surfactant in soaps and cosmetics (including eye drops), or a solubilizer such as in a mouthwash.
Polysorbate 80 is approved to use as a food additive in the EU and the US.



POLYSORBATE 80 CAN BE USED IN:
Foaming and Whipped Body Cream – use upto 6%
Bath Bombs – 1 Part oil to 1 part polysorbate 80
Bath Oils – use up to 50%
Bath Melts – use up to 10%
Mica Powder – Use up to 6% with oil
Body Scrub – 1 Part oil to 1 part polysorbate 80
Fragrance oil – 1 Part oil to 1 part polysorbate 80
Essential oil – 1 Part oil to 1 part polysorbate 80
Room Spray – 1 Part oil to 1 part polysorbate 80



WHAT DOES POLYSORBATE 80 DO IN A FORMULATION?
*Denaturant
*Emulsifying
*Surfactant



FUNCTIONS OF POLYSORBATE 80 IN COSMETIC PRODUCTS:
*emulsifier,
*solvent,
*dispersant,
*stabilizing factor.



PHYSICAL and CHEMICAL PROPERTIES of POLYSORBATE 80:
Molecular Weight: 604.8
Molecular Formula: C32H60O10
Melting Point: -21°C
Flash Point: >110°C
Purity: 99%+
Density: 1.064
Appearance: Clear Colourless Oil
Storage: Room Temperature
Assay: 0.99
Refractive Index: 1.471-1.473
Stability: Stable under normal temperatures and pressures.
Boiling point: >100 °C (1013 hPa)
Density: 1.07 g/cm3 (25 °C)
Flash point: >113 °C

pH value: 5 - 7 (50 g/l, H₂O, 20 °C)
Vapor pressure: Viscosity kinematic: 300 - 500 mm2/s (25 °C)
Appearance: pale yellow to ornge oily liquid (est)
Assay: 96.00 to 100.00
Food Chemicals Codex Listed: Yes
Specific Gravity: 1.06400 @ 25.00 °C.
Refractive Index: 1.47200 @ 20.00 °C.
Boiling Point: 695.00 to 696.00 °C. @ 760.00 mm Hg (est)
Acid Value: 80.00 max. KOH/g
Flash Point: 235.00 °F. TCC ( 112.78 °C. )
logP (o/w): 4.392 (est)
Shelf Life: 24.00 month(s) or longer if stored properly.
Storage: store in cool, dry place in tightly sealed containers, protected from heat and light.
Soluble in: alcohol, oils, water, ethyl acetate, methanol, toluene
water, 0.01999 mg/L @ 25 °C (est)

Insoluble in: mineral oi, petroleum ether
Melting Pt: 100 °C
Density: 1,08 g/cm³
Flash Pt: 113 °C (closed cup)
Storage Temperature: Ambient
MDL Number: MFCD00082107
CAS Number: 9005-65-6
EINECS: 500-019-9
Melting point/freezing point: No data available
Initial boiling point and boiling range: No data available
Flash point: > 113 °C - closed cup
Evaporation rate: No data available
Flammability (solid, gas): No data available
Upper/lower flammability or explosive limits: No data available

Vapor pressure: < 1,33 hPa at 20 °C
Vapor density: No data available
Relative density: No data available
Water solubility: No data available
Partition coefficient: n-octanol/water: No data available
Autoignition temperature: No data available
Decomposition temperature: No data available
Viscosity
Viscosity, kinematic: No data available
Viscosity, dynamic: No data available
Explosive properties No data available
Oxidizing properties No data available
Other safety information
No data available



FIRST AID MEASURES of POLYSORBATE 80:
-Description of first-aid measures
*If inhaled
After inhalation:
Fresh air.
*In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with water/ shower.
*In case of eye contact:
After eye contact:
Rinse out with plenty of water.
Remove contact lenses.
*If swallowed:
After swallowing:
Make victim drink water (two glasses at most).
Consult doctor if feeling unwell.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of POLYSORBATE 80:
-Environmental precautions:
Do not let product enter drains.
-Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.
Observe possible material restrictions.
Take up with liquid-absorbent material.
Dispose of properly.



FIRE FIGHTING MEASURES of POLYSORBATE 80:
-Extinguishing media:
*Suitable extinguishing media:
Foam
Carbon dioxide (CO2)
Dry powder
*Unsuitable extinguishing media:
For this substance/mixture no limitations of extinguishing agents are given.
-Special hazards arising from the substance or mixture:
Nature of decomposition products not known.



EXPOSURE CONTROLS/PERSONAL PROTECTION of POLYSORBATE 80:
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection
Use safety glasses.
*Skin protection:
Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0,4 mm
Break through time: 480 min
Splash contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 30 min
*Respiratory protection:
Not required.
-Control of environmental exposure:
Do not let product enter drains.



HANDLING and STORAGE of POLYSORBATE 80:
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Tightly closed.
Store at room temperature.



STABILITY and REACTIVITY of POLYSORBATE 80:
-Chemical stability:
The product is chemically stable under standard ambient conditions (room temperature) .
-Incompatible materials:
No data available



SYNONYMS:
Polyoxyethylene (20) sorbitan monooleate,
(x)-sorbitan mono-9-octadecenoate poly (oxy-1,2-ethanediyl),
Alkest TW 80,
Tween 80,
POE (20) sorbitan monooleate,
E433,
Poly sorbate 80,
Polyoxyethylene-80-Sorbitan Monolaurate
Polyoxyethylene (20) sorbitan monooleate
Sorbitan monooleate, ethoxylated
Polyoxyethylene sorbitan monooleate (polysorbate 80)
Tween 80
Nonio-light 0-30
Nonio-light SPO 1
Rheodol TW-O 120V
E 433
E 433 (polyglycol)
PEO(20) sorbitan monooleate
Rheodol TW-O 106V
Ethylan GE 08
Canarcel TW 80
Ionet-T 80PA
Nikkol TO 10V
PEG sorbitan monooleat
PEG-20 Sorbitan Monooleate
Polysorbate 80
E433
PS80
Polyethylene sorbitan monooleate
Ethoxylated sorbitan monooleate
Polyoxyethylene sorbitan monooctadecenoate
Polysorban
Polyethylene glycol, sorbitan monooleate
Polyoxyethylene (20) sorbitan monooleate
polyoxyethylene sorbitan monoleate
polysorbate 80
polyoxyethylene (20) sorbitan monooleate
Sorbitan,mono-(9Z)-9-octadecenoate,poly(oxy-1,2-ethanediyl) derivs.
Sorbitan,monooleate,polyoxyethylene derivs.
Sorbitan,mono-9-octadecenoate,poly(oxy-1,2-ethanediyl) derivs.,(Z)-
Glycols,polyethylene,ether with sorbitan monooleate
Olothorb
Polyoxyethylene sorbitan monooleate
Polysorban 80
Sorlate
Tween 80A
Crillet 4 Super
Silvan T 80
Radiasurf 7157
Myvatex MSPS
Polisorbac 60
T-MAZ 80
T-MAZ 80K
T 80C
Sorbimacrogol oleate 100
Sorbimacrogol oleate 300
Emasol O 105R
Rheodol TQ-O 106
Capmul POE-O
Sorbax PMO 20
Alkamuls T 80
T-MAZ 81
Ecoteric T 80
Montanox 81VG
TW-O 120
Montanox DF 80
Lamesorb SMO 20
POE sorbitan monooleate
Sorporol 120
Tween 81
Polysorbate 80
Tween 80
Crillet 4
Hodag SVO 9
Polyethylene glycol sorbitan monooleate
Hexaethylene glycol sorbitan monooleate
Tris(polyoxyethylene)sorbitan monooleate
Polyoxyethylenesorbitan oleate
Ethoxylated sorbitan monooleate
Sorbimacrogol oleate
Nikkol TO 10
Atlox 1087
Sorbitan monooleate polyethylene glycol ether
Romulgin O
Polyethylene glycol sorbitan ether monooleate
Montanox 80
Atlox 8916TF
MO 55F
Polyethoxylated sorbitan monooleate
Setrolene O
Emulson 10OM
Nikkol TO 10M
Tween 18:1c
Nikkol TO 106
Sorbitan monooleate polyoxyethylene ether
Crillet 41
Rheodol TW-O 120
Ionet T 80
Value TN 80
Sorgen TW 80
Rheodol TW-O 106
Ionet T 80C
Sorbitan oleate-ethylene oxide adduct
Flo Mo SMO 20
Eumulgin SMO 20
Disponil SMO 120
Glycosperse O 5
Alkamuls PSMO 20
Cemesol TW 1020
Nissan Nonion OT 221
TO 10M
Sorbitan monooleate ethylene oxide adduct
Witconol 2722
Rheodol Super TW-O 120
Cemerol T 80
Nonion OT 221
Polyoxyethylene monosorbitan monooleate
Polyoxyethylated sorbitan monooleate
Ethylene oxide-sorbitan monooleate polymer
Sorbital O 20
Crill 10
Crill 11
Crill S 10
Polysorbate 81
Emsorb 6900
Glycosperse O 20
Sorbon T 80
Durfax 80
SVO 9

POLYSORBATE 80
Polysorbate 80 is a synthetic compound.
Polysorbate 80 is a chemical substance with excipient properties.
Polysorbate 80 has nonionic surfactant properties.
Polysorbate 80 also has an emulsifier feature.


CAS Number: 9005-65-6
EC Number: 500-019-9
Chemical formula: C64H124O26
E number: E433 (thickeners, ...)


Polysorbate 80 is a nonionic surfactant and emulsifier often used in pharmaceuticals, foods, and cosmetics.
Polysorbate 80 is a viscous, water-soluble yellow liquid.
Polysorbate 80, also known as Tween-80, is a non-ionic surfactant and emulsifier.


Sorbitan monooleate polyoxyethylene ether (Tween 80) is referred to as emulsifier T-80.
Polysorbate 80 does not dissolve in mineral oils.
Polysorbate 80 has emulsifying, wetting and foaming properties.


Polysorbate 80 is emulsifying agent consisting of sorbitol, ethylene oxide and oleic acid (polyoxyethylene-80 sorbitan monooleate), oleic acid is obtained from vegetable oil.
Polysorbate 80 is a viscous, water-soluble yellow liquid.
Polysorbate 80 commercially also known as Tween 80.


Polysorbate 80 is amber, viscous liquid, odorless.
Polysorbate 80 is soluble in water and alcohols, insoluble in oils.
These Polysorbates surfactants consist primarily of oleic, stearic or lauric fatty acid esters with sorbitol-derived cyclic ethers (sorbitans and sorbides) and further polymerized with approximately 20 molecules of oxirane per molecule of Polysorbates.


Polysorbate 80 (Polysorbate 80) is an amber/golden-colored water-soluble viscous liquid.
Also, in common with other polyoxyethylene surfactants, prolonged storage can lead to the formation of peroxides.
Polysorbate 80, also known as PEG 80 and Polyoxyethylene Sorbitan Monooleate, is a polyoxyethylene derivative of sorbitan and olive oil in the form of oleic acid.


Polysorbate 80 can be added to formulas as is.
Polysorbate 80 is a nonionic surfactant and emulsifier often used in foods and cosmetics.
Polysorbate 80 is the ethoxylated sorbitan esters which are manufactured by the reaction among sorbitol, a specific fatty acid, and ethylene oxide (an average of 20 polymerized ethylene oxide per molecule of polysorbate 80).


Polysorbate 80 is a liquid substance, oily and slightly viscous.
The main quality of Polysorbate 80 is water solubility and solubility in vegetable and animal oils.
Polysorbate 80, one using area widely food emulsifier, named TW80 as well, yellow liquid, cas no. Is : 9005-65-6, E code is E433, Slightly bitter, soluble in water, ethanol, ethyl acetate and toluene, insoluble in mineral oils and vegetable oils.


Polysorbate 80 also dissolves well in isopropyl and ethyl alcohol, benzene.
The hydrophilic groups in Polysorbate 80 are polyethers also known as polyoxyethylene groups which are polymers of ethylene oxide.
In the nomenclature of polysorbates, the numeric designation following polysorbate refers to the lipophilic group, in this case the oleic acid (see polysorbate for more detail).


Polysorbate 80's ability to mix water-based and oil-based ingredients well (with a high approximate HLB value 15).
Polysorbates are derived from ethoxylated sorbitan (a derivative of sorbitol) esterified with fatty acids and exist as oily liquids.
Polysorbate 80, (=Tween 80), also known as Polyoxyethylene Sorbitan Monooleate, is a nonionic emulsifier and surfactant and used in cosmetics and foods.


Based on Polysorbate 80 group types evaluated, Polysorbate 80 is likely to biodegrade, has a low potential to bioaccumulate and, based on Polysorbate 80's nonionic surfactant properties will adsorb to soils.
Polysorbate 80 is also called Tween 80.


Polysorbate 80 - polysorbate, monooleate, nonionic surfactant.
Polysorbate 80 is obtained from sorbitol and fatty acids olive oil chemically...
Polysorbate 80 is obtained from animal and vegetable oils.


Polysorbate 80 is soluble in water, insoluble in oil.
Polysorbate 80 belongs to O/W emulsifier and it's HLB value is 15.
Polysorbate 80 is a viscous, water-soluble yellow liquid.


Polysorbate 80, or Tween 80, is the abbreviation of “polyoxyethylene (20) sorbitan monooleate”, is a nonionic surfactant and emulsifier commonly used in food (with the European food additive number E433) and cosmetics.
Polysorbate 80 is an oil in water emulsifier, dispersant, and co-solubiliser.


The color of Polysorbate 80 can be from light yellow to bright amber.
The smell is not strong, characteristic
Synonyms for the name: polysorbate-80, food supplement E 433, polyoxyethylene (20) sorbitan monoaleate.


Polysorbate 80 is a chemical substance in the polyether class.
Polysorbate 80 is the polymer of Ethylene Oxide.
In the nomenclature of polysorbates, Polysorbate 80 is the acid indicated by the numerical expression following the polysorbate.


The final products are free from genetically modified organisms and of vegetable origin.
Taking into account the distinctive properties of the food stabilizer Polysorbate 80, Polysorbate 80 belongs to the group of emulsifiers and stabilizers.
Polysorbate 80, also known as Polysorbate 80, consists of sorbitol, ethylene oxide, and oleic acid.


Polysorbate 80 is an O/W emulsifier with a polysorbate 80 HLB value of 15.0.
Polysorbate 80 is soluble in water, ethanol, toluene etc.
Polysorbate 80 is also a viscosity agent with the viscosity 300–500 centistokes (@25°C).


Polysorbate 80 is a surfactant which can also reduce bacterial attachment and inhibit biofilm formation.
Polysorbates are hygroscopic and should be examined for water content prior to use and dried if necessary.
Polysorbate 80 is used as an emulsifying agent consisting of sorbitol, ethylene oxide & oleic acid (polyoxyethylene-80 sorbitan monooleate), oleic acid is derived from vegetable oil.


These Polysorbates belong to the class of emulsifiers used in pharmaceuticals and food preparations (salad dressing, ice cream, chocolates, baked goods and confectionery).
Polysorbate 80's saponification value is 45-55.
The HLB value of Polysorbate 80 is 15 (gives oil-in-water emulsions).


The fatty acid used for the production of Polysorbate 80 is oleic acid.
Polysorbate 80 is a sugar alcohol produced by the reduction reaction (or hydrogenation) of glucose which is obtained from maize or tapioca starch.
Polysorbate 80 refers to the type of fatty acid attached to the polyoxyethylene sorbitan part of the molecule, here Polysorbate 80 is monooleate or oleic acid.


Polysorbate 80 can be added to formulas as is.
The typical use level of Polysorbate 80 is 1 – 10%.
Polyoxyethylene sorbitan monooleate, one using area widely food emulsifier, named TW80 as well, yellow liquid, E code is E433, Slightly bitter, soluble in water, ethanol, ethyl acetate and toluene.


Soluble in water due to the long polyoxyethylene chains.
Polysorbate 80 is soluble in water & alcohols, insoluble in oils.
Polysorbate 80 is a solubilizing agent acts as a surfactant and increases the solubility of one agent in another.


Polysorbate 80 is a substance that would not normally dissolve in a particular solution but is able to dissolve with the use of a solubilizing agent.
Polysorbate 80 is produced by ethoxylation.
Polysorbate 80 helps the oil to mix with water to form emulsions, it also allows other ingredients to dissolve better in the skin solvents (solubilized).


Polysorbate 80 (INCI: polyoxyethylene (20), sorbitan monooleate) is an amber/golden-colored viscous liquid used as as an emulsifier or surfactant in foods, medicines, skincare products, vaccines etc.
Polysorbate 80 also acts as a surfactant in soaps and cosmetics.
Also known as tween 80, Polysorbate 80 is a class of emulsifiers used in pharmaceuticals and food preparation.


Polysorbate 80 (polyoxyethylene sorbitan monooleate) is derived from RSPO palm oil.
Polysorbate 80 is a non-toxic, nonionic surfactant/emulsifier and a water-soluble yellowish liquid used as a dispersing agent which allows oil and water to mix without the use of alcohol.
From the point of view of chemistry, Polysorbate 80 is an ethoxylated monoester of fatty acid anhydrohexavites.


Polysorbates are stable to electrolyes and weak acids and bases; gradual saponification occurs with strong acids and bases.
Polysorbate 80 is a fragrance solubilizer and stabilizer.
Polysorbate 80 lubricates and has a soothing effect on the skin.


Polysorbate 80 is a light yellow liquid that is soluble in water, alcohol and insoluble oils.
Polysorbate 80 has a molecular formula of C64H124O26.
At room temperature, Polysorbate 80 is in the form of pale-yellow to amber oily liquid.


Polysorbate 80 derivative is a hydrophilic, non-ionic surfactant used as an emulsifier.
Polysorbate 80 is considered a UVCB substance (substance of unknown or variable composition, complex reaction products or biological materials).
Polysorbate 80 is an emulsifier that allows fragrance and essential oils to bind with water based products.


Depending on your formula, your end product may be cloudy.
Ethoxylated sorbitan monooleate is the chemical name for a chemical known in INCI terminology as Polysorbate 80.
Polysorbate 80's CAS number is 9005-65-6 .


Polysorbate 80 is produced by ethoxylation of a molecule called sorbitan.
Polysorbate 80 is the dehydrated form of sorbitol, a sugar alcohol found naturally in some fruits. E
Polysorbate 80 is manufactured from polyethoxylated sorbitan (derived from the dehydration of sorbitol, a sugar alcohol) and oleic acid, a fatty acid found in animal and vegetable fats.


Due to this structure, Polysorbate 80 forms an approximate hydrophilic-lipophilic balance of 15.
Polysorbate 80 may be of plant or animal origin.
Fatty acids directly involved in Polysorbate 80's production are obtained, for example, from olive oil or from animal products.


Polysorbate 80 can also be produced by reacting sorbitol and ethylene oxide first then esterified with oleic acid;
*Obtaining the mixture of sorbitol and sorbitan by partially dehydrating sorbitol.
*Adding ethylene oxide to the mixture to obtain sorbitan polyethylene ether.
*Reacting it with oleic acid.


The number following the 'polysorbates' part reflects the type of fatty acid connected with the polyoxyethylene sorbitan part of the molecule.
Monolaurate is indicated by 20, monopalmitate is indicated by 40, monostearate by 60, and monooleate by 80.
The number 20 following the 'polyoxyethylene' part refers to the total number of oxyethylene -(CH2CH2O)- groups found in the molecule.


According to the FDA, there are generally two steps in the manufacturing process of Polysorbate 80:
Esterification between oleic acid and sorbitol to obtain sorbitan esters.
Condensation sorbitan esters with ethylene oxide.


The composition of Polysorbate 80 derivative (CAS No. 9005-65-6) is unknown.
The CAS No. 9005-65-6 is a generic CAS No. that can include at least the following UVCB substance groups:

1. An ethoxylated sorbitan ester of oleic acid with an average of 3 moles of ethylene oxide (e.g., PEG3-sorbitan oleate).
2. A mixture of oleate esters of sorbitol and sorbitol anhydrides, consisting predominantly of the
monoester, condensed with approximately 5 moles of ethylene oxide (e.g., Polysorbate 81).

3. An ethoxylated sorbitan ester of oleic acid with an average of 6 moles of ethylene oxide (e.g., PEG6 sorbitan oleate).
4. An ethoxylated sorbitan ester of oleic acid with an average of 20 moles of ethylene oxide (e.g., PEG-20 sorbitan oleate).
5. A mixture of oleate esters of sorbitol and sorbitol anhydrides, consisting predominantly of the monoester, condensed with approximately 20 moles of ethylene oxide (e.g., Polysorbate 80).



USES and APPLICATIONS of POLYSORBATE 80:
Polysorbate 80 is widely used in oil exploration and transportation, medicine, cosmetics, paint pigments, textiles, food, and pesticides.
Polysorbate 80 is used as emulsifier, dispersant, stabilizer, diffuser, lubricant, softener, antistatic agent, antirust agent, finishing agent, viscosity reducer, etc. in detergent production and metal surface antirust cleaning.


Polysorbate 80 has excellent emulsifying, dispersing and wetting properties.
Polysorbate 80 is used as ice cream, bread, cakes, sweets and other emulsifiers, dispersants and cool drinks.
Polysorbate 80 is used Stabilizer, Emulsifier, Chewing gum, Refreshments, Ice creams, Pastry, Pâtés, Soups, Alcoholic drinks, Fine bakery wares, Fat emulsions for baking purposes, Milk and cream analogues, Edible ices, Desserts, Sugar confectionery, Emulsified sauces, and Soups.


Polysorbate 80 is used Chewing gum, Dietary food supplements, Dietetic foods intended for special medical purposes, Dietetic formulae for weight control, and Carriers and solvents for colours, fat-soluble antioxidants and antifoaming agents.
Polysorbate 80 is used Flavoured fermented milk products, Milk and cream analogues, Fat emulsions for baking, Sugar confectionery, Chewing gum, Decorations, coatings and fillings, and Fine bakery wares.


Polysorbate 80 is used Soups, sauces, Desserts, Cosmetics, Agrochemicals, Textile, Mining industry, Metalworking, and Hydraulic fluids.
Polysorbate 80 is polymerized from sorbitan monooleate and ethylene oxide.
Polysorbate 80 is mainly used in petroleum, chemical, plastic, machinery, paint, leather, cosmetics and other industries.


Polysorbate 80 is used as an emulsifier in foods.
For example, in ice cream, Polysorbate 80 is added up to 0.5% (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.
Adding Polysorbate 80 prevents milk proteins from completely coating the fat droplets.


This allows them to join in chains and nets, which hold air in the mixture, and provide a firmer texture that holds Polysorbate 80's shape as the ice cream melts.
Polysorbate 80 is used to dissolve flavorings in fats, as an emulsifier and thickener, as a foaming agent (for products with high acidity) and an antifoam agent (in the production of fats).


Polysorbate 80 is used as an emulsifier in food and some other products.
Usage areas as emulsifier; Polysorbate 80 is used in the production of chocolates, breads, cake mixes, salad dressings and fats.
In soap production, surfactant properties of Polysorbate 80 are used in the cosmetics industry.


Polysorbate 80 is used as a lubricant in the manufacture of eye drops.
In addition, when using the food stabilizer Polysorbate 80 as an emulsifier, the chemical helps prevent the loss of the original consistency as well as the viscosity level of the ready-to-market products.


Polysorbate 80 is used as an excipient to stabilize aqueous drug formulations is a polysorbate.
Polysorbate 80 is used as a flavoring agent, emulsifier, boiler water additive, surface-active agent, and stabilizer or thickener for foods.
Polysorbate 80 is mostly used in food among the category of Polysorbates.


Polysorbate 80 is the most commonly used in bakery food production.
Polysorbate 80 help to extend shelf life, improve the strength and increase volume of baked goods and frozen desserts.
Polysorbate 80 is used as an adjuvant in influenza vaccines.


Polysorbate 80 has estrogen-regulatory properties.
Polysorbate 80 is a strongly hydrophilic surface active agent.
Polysorbate 80 is used as an emulsifier, often in combination with sorbitan esters.


Polysorbate 80 is also widely used in advanced cosmetics, textile, pharmaceutical industry as a solvent, also widely used in textile, paint, emulsion explosives, pesticides, printing, oil and other industries as emulsifiers, stabilizers, lubricants, softeners, antistatic agents.
Polysorbate 80 is used in cosmetics to solubilize essential oils into water-based products, pharmaceuticals, detergents, paints, and plastic applications.


In some productions, Polysorbate 80 helps the compounds to mix with each other.
Polysorbate 80 is a substance that prevents separation.
Polysorbate is used as a fixture to increase the permanence of the essence .


Polysorbate 80 is used as emulsifier, foaming agent, lubricant, solubilizing agent, antistatic agent, washing agent, dispersing agent, degreasing agent and chemical intermediate in the industry.
Polysorbate 80 is used to increase the solubility of the essence.


Polysorbate 80 is used together with the active substance in the manufacture of antipyretic syrups.
For the strong hydrophilicity, Polysorbate 80 can distribute colors (e.g. incorporate mica), fragrances, oils and other ingredients evenly in bath bombs, creams and soaps.
Polysorbate 80 can be used as an emulsifier and stabilizer in various vaccines, as a lubricant in eye drops.


Polysorbate 80 can be found in the composition of muffins and yoghurts, ice cream, margarine and butter, cream and fat for baking, chewing gum.
The purpose of use of Polysorbate 80 here is to emulsify.
Some ingredients in shampoos produced to repair scalps have properties that prevent hair loss.


Polysorbate 80 is used in the culture of Mycobacterium tuberculosis in Middlebrook 7H9 broth.
Polysorbate 80 is also used as an emulsifier in the estrogen-regulating drug Estrasorb.
Polysorbate 80 can be used in food, cosmetic, pharmaceutical, feed, and industry.


Polysorbate 80 is a nonionic surfactant and Emulsifier derived from polyethoxylated sorbitan and oleic acid, and is often used in foods.
Polysorbate 80 is used as emulsifier, dispersant, stabilizer, spreading agent, lubricant, softener, antistatic agent, rust inhibitor, finishing agent, viscosity reducer, etc. in detergent production and metal surface anti-rust cleaning.


Polysorbate 80 is used as an emulsifier in such shampoos.
Polysorbate 80 is used as an emulsifier in the manufacture of some pesticides.
Polysorbate 80 is used in the food industry as an emulsifier.


As an astringent, Polysorbate 80 is common in the cosmetics and pharmaceutical industries.
Polysorbate 80 ( E433 ); Polysorbate 80 is used as a thickener, antifoam, stabilizer, synthetic sweetener.
Polysorbate 80 is used for external use only.


Medical: Polysorbate 80 is a surfactant and solubilizer used in a variety of oral and topical pharmaceutical products.
Polysorbate 80 is the strongest emulsifier among polysorbates and can be used for formulations in which a wide variety of oils or “heavy” vegetable oils must be added.
Polysorbate 80 is used body washes, hair shampoos, hair loss treatments, lotions, creams, bath oils, and solubilizers.


Polysorbate 80 is also part of the adjuvant used in some European and Canadian influenza vaccines.
Polysorbate 80 is also used in the culture of Mycobacterium tuberculosis in Middlebrook 7H9 broth.
Polysorbate 80 is a surfactant with numerous applications in food, pharmaceutical, and cosmetics; other than that, Polysorbate 80 can also use as an emulsifier for culture medium to reduce the surface tension of the medium, which enhances the growth of cells.


Vitamins, tablets, and supplements also contain Polysorbate 80 because of Polysorbate 80's preservative nature.
Polysorbate 80 being a nonionic surfactant is used in soaps and cosmetics (including eyedrops), or as solubilizer in mouthwashes.
Polysorbate 80 is used raw material source: sorbitol, vegetable oils.


Polysorbate 80 is suitable for use in Blooming Bath Oils and room sprays and "easy wash" Massage Oils.
Polysorbate 80 is an excipient that is used to stabilize aqueous formulations of medications for parenteral administration, and used as an emulsifier in the making of the antiarrhythmic amiodarone.


Polysorbate 80 is found in many vaccines used in the United States, including the Janssen COVID-19 vaccine.
Polysorbate 80 is also used in granulation for stabilization of drugs and excipients when IPA binding.
Usage rate of Polysorbate 80 is between 1 - 50% depending on the application.


Lower usage rates indicate when Polysorbate 80 is used as a co-solubiliser, and the higher rates when it is being used as a dispersant and emulsifier.
Polysorbate 80 has good solubilising properties and is recommended in systems using oils and fatty alcohols.
Polysorbate 80 is used as an emulsifier in the production of polyurethane foam.


The food industry is used as an emulsifier for ice cream.
The dosage is 0.1% butter, and the general oil is about 1%.
Polysorbate 80 used as emulsifier, stabiliser in a large range of foods including chewing gum, ice cream, soft drinks.


Polysorbate 80 is also used in a wide range of detergents, pharmaceuticals and beauty and skin products.
The dosage is 0.1% to 0.5%, to prevent spatter, food aging, improve quality, gloss, improve taste and softness.
Polysorbate 80 goes beyond standard polysorbate monograph requirements to provide a low moisture, low peroxide version of Tween 80 designed for parenteral applications and applications where API stability presents a challenge.


Polysorbate 80 is used O/W emulsifier, solubiliser and wetting agent.
Polysorbate 80 is used as a solubilizing agent in IV formulations of the antiarrhythmic drug amiodarone.
Polysorbate 80 is widely used in petroleum exploration and transportation, medicine, cosmetics, paints, textiles, food, and pesticides.


Polysorbate 80 is used for external use only.
Polysorbate 80 is used body washes, hair shampoos, hair loss treatments, lotions, creams, bath oils, solubilizates.
Extracted by chemical processes from the sweet-smelling fruits like apples, pears, peaches, and prunes, Polysorbate 80 is used in cosmetics, personal care, pharmaceutical, food, drug, textile, and metalworking industries.


Polysorbate 80 is also widely used in industrial productions such as use as a wetting agent and dispersant for photographic film making; as a stabilizer and foaming agent for polyurethane foaming plastic.
Polysorbate 80 may increase the absorption of fat-soluble substances.


Polysorbate 80 (C64H124O26) is a common excipient and solubilizing agent used in the pharmaceutical industry.
Polysorbate 80 (also known as polyoxyethylene-sorbitan-20 mono-oleate, or Tween 80) is used in the pharmaceutical and cosmetic industry in lotions, medical preparations (e.g., vitamin oils, vaccines, and intravenous preparations) and as an excipient in tablets.


Polysorbate 80 is a nonionic surfactant and emulsifier derived from polyethoxylated sorbitan and oleic acid, and is often used in foods.
Polysorbate 80 is used as emulsifier, wetting agent, penetrating agent, diffusing agent, etc.
Polysorbate 80 is also used as a component of cotton fiber and viscose curtain tensioning agent.


Polysorbate 80 is an emulsifier derived from animal fatty acids, and natural oils and used as synthetic flavourings, surfactants, de foaming agents and dough conditioners.
Polysorbate 80 is used as an emulsifier in combination with a variety of other hydrophobic emulsifiers to cover a wide range of O/W and W/O emulsions
When used on Polysorbate 80's own, Polysorbate 80 is an excellent solubilizer of essential oils, wetting agent, viscosity modifier, and disperser.


Polysorbate 80 can be used as a foaming agent to make spumas or airs.
Polysorbate 80 is used in cosmetics, pharmaceuticals, as a lubricant and finish emulsifier for textile and leather manufacture, laboratory reagent, and flavoring; [ECHA REACH Registrations] Permitted for use as an inert ingredient in non-food pesticide products.


Polysorbate 80 is also added as an emulsifier in foods, particularly in ice cream, where polysorbate is added to up to 0.5% concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.
Polysorbate 80 (or E433) is a non-ionic surfactant and emulsifier find use in foods as emulsifier for salad dressings and chocolates, in cosmetics for preparing skin, facial cleansers and hair care products, and to disperse active ingredients in pharmaceuticals benefiting the pharmacological industry.


Polysorbate 80 prevents milk proteins from completely coating the fat droplets.
This allows them to join together in chains and nets, which hold air in the mixture, and provide a firmer texture that holds Polysorbate 80's shape as the ice cream melts.
Polysorbate 80 is also used as an excipient in some European and Canadian influenza vaccines.
Influenza vaccines contain 2.5 μg of polysorbate 80 per dose.


Polysorbate 80 is used in creams, shampoos, air fresheners, scrubs, foams, hydrophilic oils, face and hair masks, body sprays and other products that require fragrances, essential or fatty oils to be bound with water.
Polysorbate 80 is often used in cosmetics to solubilise essential oils and fragrance oils into water-based products.


Polysorbate 80, NF is used to solubilize essential oils.
Polysorbate 80 is used as an emulsifier in combination with a variety of other hydrophobic emulsifiers to cover a wide range of oil in water, and water in oil emulsion systems.
Individually, Polysorbate 80 is an excellent solubilizer of essential oils, wetting agent, viscosity modifier, stabilizer and dispersing agent.


Use Polysorbate 80 in the creation of linen and room sprays, body sprays and other products where oils need to be solubilized in water.
Polysorbate 80 is a nonionic surfactant and emulsifier often used in foods and cosmetics.
Polysorbate 80 specifically aids in the mixing of oil and water and is typically used in formulations containing more oils than water.


Polysorbate 80 is soluble in water, alcohol and butter and insoluble in oils.
Polysorbate 80 is used to modify viscosity and as a dispersing agent for fragrances and essential oils particularly in heavier creams, carrier oils and bath products.
Polysorbate 80 is used to help with whipping and foaming body creams. (useage 1-5%)


Polysorbate 80 is substitute oils or witch hazel in bath bombs to help retain fizz (between 1-6% usage)
Polysorbate 80's structure also enables it to fulfil other functions, such as the modification of fat crystallisation.
Polysorbate 80 is suitable for body scrubs, body creams, lotions, room spray, bath oils, bath bombs


Polysorbate 80 prevents bathtub staining when using dyes or micas (useage 1-2% or 1 part P80 to 2 parts oil/butter)
In pharmacology, Polysorbate 80 is used as a binder in vaccines, tablets, and vitamin preparations
Polysorbate 80 is often used in the production processes of the food industry to increase the shelf life, as well as to sell finished food products.


Polysorbate 80 is often used in food and other products as an emulsifier.
Polysorbate 80 is used in cosmetics as a non-ionic surfactant (HLB 15) and emulsifier.
Polysorbate 80 is used in multiple cosmetic products.


Polysorbate 80 is used as an (oil in water) emulsifying agent, surfactant or solubilising agent.
Polysorbate 80 has an HLB (Hydrophilic – Lipophilic Balance) Value of 15 and can be used as a solubiliser for fragrance, essential oils and carrier oils to be incorporated into water or surfactant-based products such as body washes and toners etc.


Polysorbate 80 is a super emulsifier and stabilizer that mixes two or more not compatible ingredients not separate, usually oil and water.
Polysorbate 80 is soluble in water, partially soluble in fractionated coconut oil and insoluble in glycerine.
Products containing Polysorbate 80 are shampoos, shower gels, moisturizing creams, facial cleansers, after-sun creams, body lotions, foot creams, cleansing milks, liquid soaps, face creams, etc.


Polysorbate 80 is used in industry mainly because of its emulsifying properties.
Additionally, Polysorbate 80 acts as a wetting agent or formulation stabilizer.
Polysorbate 80 is mainly used in cosmetics, textile industry and mining industry.


Polysorbate 80 is used as an emulsifier for pesticide formulations, mainly EC, SL, EW, ME, WP, WG formulations.
Polysorbate 80 is found as an emulsifier in emulsion explosives.
The textile industry uses Polysorbate 80 to soften fibers and increase the efficiency and productivity of the dyeing process.


Polysorbate 80 is a surfactant and emulsifier used in cleaners and personal care products.
This skin-safe ingredient, Polysorbate 80, is used extensively in oil-in-water emulsions (lotions, conditioners, cream rinses, shampoos, liquid soaps, body polishes or scrubs, etc.) and also for body mists and linen sprays.


Polysorbate 80 will be found as an ingredient in many body toiletries, cosmetics and wipes now in the market.
Polysorbate 80 is not food grade.
The manufacturer states Polysorbate 80 is vegan, Halal and Kosher; however, written certificates are not available.


Polysorbate 80 is regarded as a safe chemical in skincare and is used as an emulsifier to combine oil and water.
Polysorbate 80 is generally used to combine thicker / heavier oils and is also popular in haircare products
Polysorbate 80 is regarded as a safe chemical in skincare and is used as an emulsifier to combine oil and water.


Use Polysorbate 80 in applications where you need water and oil to combine a prime example would be bath oils where you have oil that you want to disperse in water.
Polysorbate 80 is best used for vegetable oils that are thicker and heavier.
If you are looking to combine essential oils with water then use Polysorbate 20.


Both Polysorbate 20 and 80 can be used in the same product.
Polysorbate 80 can aid the stability of creams, lotions and gels, especially in those made with cold processed by encourgaing the oils and waters to bond easily.
Polysorbate 80 can be used in lotions, creams, bath bombs, scrubs and hair conditioner.


Polysorbate 80 is typically a co-emulsifier that is used both as a viscosity modifier and a dispersing agent for fragrances and essential oils for room sprays and linen sprays.
Especially for cream chocolate toffee, Polysorbate 80 has obvious anti frosting effect.
Polysorbate 80 can be used alone, and can also be used with food emulsifiers such as glycerides, sucrose esters, etc., to play a synergistic effect.


Polysorbate 80 is commonly used in food and cosmetics, also with a little application in medicines, vaccines and others.
Polysorbate 80 is used as an emulsifier in the manufacture of medications for parenteral administration, most notably in the popular anti-arrhythmic amiodarone.
When combined with liquid oils, Polysorbate 80 creates a blooming bath oil.


Polysorbate 80 can also be used in a self-emulsifying sugar or salt scrub.
In bath bombs, you can add up to 6% as a wetting agent (rather than a traditional witch hazel or liquid oil) to help prolong fizzing in the tub.
Polysorbate 80 is commonly used as a non-ionic detergent for cell lysis.


-Polysorbate 80 is used as an emulsifier in foods, particularly in ice cream.
Polysorbate 80 is added to up to 0.5% (v/v) concentration and makes the ice cream smoother and easier to handle, as well as increasing its resistance to melting.
Adding Polysorbate 80 prevents Milk proteins from completely coating the fat droplets.
This allows them to join together in chains and nets, which hold air in the mixture, and provide a firmer texture that holds its shape as the ice cream melts.


-Health and beauty
Polysorbate 80 is also used as a surfactant in soaps and cosmetics (including eyedrops), or a solubilizer, such as in a mouthwash.
The cosmetic grade of polysorbate 80 may have more impurities than the food grade.


-Common Usage of Polysorbate 80:
*Emulsifier
*Solubiliser
*Sorbitol
*Stabiliser
*Dispersant


-Polysorbate 80 is used in cosmetics as:
*stabilizer essential oils;
*emulsifier and solubilizer (helps to ensure that the agent is easily dissolved in water and washed off with water);
*lubricant, moisturizer, antistatic agent, conditioner;
*a soothing agent for the skin;
*hair growth stimulant and baldness remedy.


-Polysorbate 80 can be used in:
*Moisture Cream
*Moisture Lotion
*Cleansers
*Shower Gel
*Shampoo


-Polysorbate 80 is used in cosmetic, food and pharmaceutical industry.
The cosmetic industry exploits Polysorbate 80's amazing ability to make essential and fatty oils water-soluble.
Polysorbate 80 is worth adding a little tween 80 to the oil, as the mixture can be washed off with plain water.


-Butter sauce:
Polysorbate 80 produces the creamy sauce;
enables butter and water not separate; makes the milk solids, salts, flavors, colors and other ingredients distributed evenly in the sauce.


-Cosmetics:
Cosmetic grade Polysorbate 80 functions as a denaturant, emulsifying, surfactant in cosmetics and personal care products to help blend oil and water.


-Food:
Polysorbate 80 is used as an emulsifier in foods.
For example, in ice cream, Polysorbate 80 is added up to 0.5% (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing Polysorbate 80's resistance to melting.

Adding Polysorbate 80 prevents milk proteins from completely coating the fat droplets.
This allows them to join in chains and nets, which hold air in the mixture, and provide a firmer texture that holds its shape as the ice cream melts.


-Health and beauty:
Polysorbate 80 is also used as a surfactant in soaps and cosmetics (including eyedrops), or a solubilizer, such as in a mouthwash.
The cosmetic grade of Polysorbate 80 may have more impurities than the food grade.


-The solubility of Polysorbate 80 allows it to assist in dissolving ingredients that would remain solid under normal circumstances.
In foods like ice cream, Polysorbate 80 is added up to 0.5% (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.


-Laboratory:
Some mycobacteria contain a type of lipase (enzyme that breaks up lipid molecules); when these species are added to a mixture of Polysorbate 80 and phenol red, they cause the solution to change color, so this is used as a test to identify the phenotype of a strain or isolate.


-Food:
Food grade Polysorbate 80 helps water-based liquids and oils-based ingredients mixed together easily.
Polysorbate 80's common food applications are in ice cream, pickles, vitamins and sauce.


-Chemistry:
Polysorbate 80 is derived from polyethoxylated sorbitan and oleic acid.
The hydrophilic groups in Polysorbate 80 are polyethers also known as polyoxyethylene groups, which are polymers of ethylene oxide.
In the nomenclature of polysorbates, the numeric designation following polysorbate refers to the lipophilic group, in this case, the oleic acid.


-Ice cream:
Provide a creamy texture
Hold fat and water together (or maintain the shape) very well
Prevent ice crystals formation
Make ice cream resistant to melt


-Other industries using Polysorbate 80
In addition to cosmetic use, Polysorbate 80 is an excipient used to stabilize aqueous forms of medicinal products for parenteral administration or vaccination.
Polysorbate 80 helps prevent surface damage of a particle subjected to mechanical stress during handling and handling.
Polysorbate 80 is also one of the most common surfactants currently used in the formulation of protein-based biopharmaceuticals.


-Applications of Polysorbate 80:
*Bath, shower & soaps
*After sun
*Body care
*Eye contour care
*Face / neck skin care
*Face colour
*Facial cleansers
*Hair conditioners - rinse off
*Shampoos
*Sun protection


-Pickles:
As a solubilizer to disperse food flavors and colors.
-Vitamin supplements:
As a solubilizing and dispersing agent in fat-soluble vitamins and vitamin-mineral preparations.



THE FOLLOWING PRODUCTS MAY CONTAIN POLYSORBATE 80:
-Bath bombs
-Shampoo
-Body butter
-Soap
-Pharmaceutical



FUNCTIONS OF POLYSORBATE 80:
*Denaturant :
Polysorbate 80 makes cosmetics unpleasant.
Polysorbate 80 is mainly added to cosmetics containing ethyl alcohol
*Emulsifying :
Polysorbate 80 promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)
*Surfactant :
Polysorbate 80 reduces the surface tension of cosmetics and contributes to the even distribution of the product when it is used.



BENEFITS OF POLYSORBATE 80:
*Non-ionic, multi-purpose emulsifier (enables water and oil to mix)
*Emulsifying efficacy is increased when combined with cetyl alcohol or sorbitan stearate
*Acts as dispersing agent and anti-static thickener
*Very useful as a solubilizer and stabilizer of essential oils
*May be useful as a hair growth supplement



CLASS of POLYSORBATE 80:
-Emulsifiers
-Stabilisers
-Thickeners
-Gelling Agents



POLYSORBATES:
Polysorbates are generally used in combination with other emulsifiers such as mono- and di-glycerides or sorbitan monostearates for various purposes such as to disperse flavors and colors, to make essential oils and vitamins soluble and to improve volume and texture in baked goods.
Use Polysorbate 80 when lots of foaming action is desired in a finished product.
Start with a ratio of 1:1.
For example, for every ounce of essential or fragrance oil mix with one ounce of Polysorbate 80.
Polysorbate 80 is extremely important to mix well, then add enough distilled water to allow you to make your blend or product.
If the results are still too cloudy, you may need to increase the Polysorbate 80 to 3 parts to 1 or 4 parts to 1.
Sometimes, the denser the oil the more Polysorbate 80 you will need.

Like other fatty acids, oleic acid also present in nature commonly in the form of triglycerides.
The following are the vegetable oils high with oleic acid:
*Olive oil
*Pecan oil
*Canola oil

*Peanut oil
*Macadamia oil
*Sunflower oil
*Grape seed oil

*Sea buckthorn oil
*Sesame oil
*Poppyseed oil
*Manufacturing process



FUNCTIONS OF POLYSORBATE 80:
*Dispersing agents
*Solubilisers
*Solvents
*Emulsifiers
*Surfactants / detergents



BENEFITS AND USES OF POLYSORBATE 80:
You can find Polysorbate 80 in watery concoctions like room sprays, body sprays, and hand washes.
Polysorbate 80 is used to disperse oils evenly so they don’t separate in shampoos, conditioners, face washes, lipsticks, etc.
Polysorbate 80 is the reason behind the creaminess of your products.
Polysorbate 80 boosts rinse off and adds extra strength to your other surfactants.
Seldom Polysorbate 80 is used as a food additive in wines and ice-creams.
Polysorbate 80 is used in sauces to keep their texture smooth.
Polysorbate 80 is also used to improve the consistency of gel capsules and to make the pills disperse in the stomach.



FUNCTIONS OF POLYSORBATE 80 IN COSMETIC PRODUCTS:
*emulsifier,
*solvent,
*distributor,
*stabilizing factor.



ADVANTAGES of POLYSORBATE 80:
-Effective emulsifying properties,
-Solubilization of fragrances and essential oils,
-Prevents the emulsion stratification,
-Dissolves well in water,
-Anti-static,
-Safe for the water environment,



FUNCTIONS of POLYSORBATE 80:
1. Binder / Stabilizer:
Retains the physical characteristics of food/cosmetics and ensure the mixture remains in an even state.

2. Emulsifier:
Allows water and oils to remain mixed together to form an emulsion.

3. Gelling Agent / Thickener:
Increases the viscosity by thickening the liquid to give it more texture
Polysorbate 80 is derived from polyethoxylated sorbitan and oleic acid.

Polysorbate 80 is used as an emulsifier in foods (E number 433) such as ice cream, which makes the ice cream smoother and easier to handle, as well as increasing its resistance to melting.
Polysorbate 80 is also used as a surfactant in soaps and cosmetics (including eye drops), or a solubilizer such as in a mouthwash.
Polysorbate 80 is approved to use as a food additive in the EU and the US.



WHAT ARE POLYSORBATE 80'S PHYSICAL AND CHEMICAL PROPERTIES?
Polysorbate 80 has a color between yellow and amber.
Polysorbate 80 has a hot and bitter taste.
Polysorbate 80's density is 1.08 g/mL.
Polysorbate 80's boiling point is above 100 °C.
In terms of stability, Polysorbate 80 is incompatible with strong alkali chemicals and oxidizing chemicals.
Polysorbate 80 is soluble in water and alcohols.
Polysorbate 80 is insoluble in oil.



FEATURES OF POLYSORBATE 80:
Polysorbate 80's HLB value is 15.0.
Because of its high HLB value, and its price is much lower than emulsifiers such as sucrose esters with equal HLB values, Polysorbate 80 is usually used in combination with low HLB value monoglycerides, spans, sucrose esters, etc. to meet the needs of various protein drinks.



HOW TO USE POLYSORBATE 80:
*To the heated oil phase add our polysorbate 80.
*Stir and dissolve it completely.
*Once it cools down to room temperature add water.
*Keep agitating constantly until an emulsion forms.



PROPERTIES OF POLYSORBATE 80:
Properties of Polysorbate 80 in cosmetic products.
Polysorbate 80 is a skin care component used in cosmetics and personal care products to improve their texture.
Polysorbate 80 gives a soft consistency suitable for cosmetics.

The texture of Polysorbate 80 is primarily sensory, but it is also important that it spreads easily.
Polysorbate 80 effectively supports the stability of creams, lotions and gels, especially those that are cold-worked, promoting easy binding of oils and water.
Polysorbate 80 is used as surfactant, emulsifier and solvent, it helps to create smooth, easy-to-apply skin and body care products.

As an emulsifier, Polysorbate 80 helps to prevent the mixing and separation of components.
Its solubility properties are used in cosmetic preparations.
As a surfactant, Polysorbate 80 increases the solubility of one substance in another.

A substance that would not normally be dissolved in a particular solution can be dissolved in the presence of Polysorbate 80.
In this way, Polysorbate 80 becomes effective for washing impurities from the skin surface, for example, with the use of face wash gels containing ethoxylated sorbitan monooleate.



CHEMISTRY OF POLYSORBATE 80:
Polysorbate 80 is derived from polyethoxylated sorbitan and oleic acid. The hydrophilic groups in Polysorbate 80 are polyethers also known as polyoxyethylene groups, which are polymers of ethylene oxide.
In the nomenclature of polysorbates, the numeric designation following polysorbate refers to the lipophilic group, in this case, the oleic acid (see polysorbate for more detail).

The full chemical names for polysorbate 80 are:
Polyoxyethylene (80) sorbitan monooleate
(x)-sorbitan mono-9-octadecenoate poly(oxy-1,2-ethanediyl)
The critical micelle concentration of polysorbate 80 in pure water is reported as 0.012 mM.



CONCENTRATION AND SOLUBILITY OF POLYSORBATE 80:
As a food additive, Polysorbate 80 is added up to 0.5% concentration.
In bath and body products, the recommended concentration is up to 2%.
For other industrial purposes, the concentration can go up to 20%.
Polysorbate 80 is soluble in both water and oil.



PRODUCTION OF POLYSORBATE 80:
Polysorbate 80 is obtained by esterification of sorbitol with one or three fatty acid molecules, including stearic, lauric, oleic and palmitic acids



GENERAL FEATURES OF POLYSORBATE 80:
Polysorbate 80 is a hydrophilic, nonionic surfactant.
Polysorbate 80 is a thick yellow liquid.
Polysorbate 80 is characterized by high viscosity.
Polysorbate 80 is very soluble in water, soluble in low aliphatic alcohols and benzene, but poorly soluble in oils.
Polysorbate 80 is biodegradable in the natural environment.



HOW POLYSORBATE 80 WORKS?
Polysorbate 80 works by breaking the water tension of the surface to allow the lifting of dirt and oil.
Polysorbate 80 acts as an emulsifier to improve the consistency of any product.
Polysorbate 80 acts as a solubilizer that blends all the ingredients.



BENEFITS OF POLYSORBATE 80:
*Polysorbate 80 is non-ionic, multi-purpose emulsifier (makes water and oil mix)
*Emulsifying effectiveness increases when combined with cetyl alcohol or sorbitan stearate
*Polysorbate 80 acts as dispersing agent and anti-static thickener
*Polysorbate 80 is very useful as a solubilizer and stabilizer of essential oils.
*Polysorbate 80 may be useful as a hair growth supplement



HOW IS POLYSORBATE 80 PRODUCED?
Polysorbate 80 is obtained by esterification reaction of Sorbitol and Ethylene Oxide to obtain high purity Polysorbate 80.
Another acid used in Polysorbate 80's production is oleic acid.

Oleic acid is both animal and vegetable fatty acids.
Commercially available oleic is not a pure fatty acid.
It consists of a mixture of different fatty acids.

Polysorbate 80 production reaction is as follows.
The production technique usually consists of 3 stages commercially.

These;
*Sorbyl Alcohol (Sorbitol) dehydration
*Esterification of Oleic Acid
*Etherification of Oxytetan



MEDICAL:
Polysorbate 80 is a surfactant and solubilizer used in a variety of oral and topical pharmaceutical products.
Polysorbate 80 is an excipient that is used to stabilize aqueous formulations of medications for parenteral administration, and used as an emulsifier in the making of the antiarrhythmic amiodarone.

Polysorbate 80 is also used as an excipient in some European and Canadian influenza vaccines.
Influenza vaccines contain 2.5 μg of polysorbate 80 per dose. Polysorbate 80 is found in many vaccines used in the United States, including the Janssen COVID-19 vaccine.
Polysorbate 80 is used in the culture of Mycobacterium tuberculosis in Middlebrook 7H9 broth.

Polysorbate 80 is also used as an emulsifier in the estrogen-regulating drug Estrasorb.
Polysorbate 80 is also used in granulation for stabilization of drugs and excipients when IPA binding.



LABORATORY:
Some mycobacteria contain a type of lipase (enzyme that breaks up lipid molecules); when these species are added to a mixture of polysorbate 80 and phenol red, they cause the solution to change color, so this is used as a test to identify the phenotype of a strain or isolate.
On RODAC agar plates used in microbiological control, polysorbate 80 counteracts disinfectants often found on sampled surfaces, thereby allowing the microbes found on these surfaces to grow.



PHYSICAL and CHEMICAL PROPERTIES of POLYSORBATE 80:
Acid value: ≤2.0(mg KOH/g)
Saponification value: 45-55(mg KOH/g)
Hydroxyl value: 65~80(mg KOH/g)
Moisture: ≤3.0(w/%)
Residue on ignition: ≤0.25(w/%)
Oxyethylen: 65~69.5(w/%)
Color: Yellow to Amber
Content And Storage: Indoors +20°C
Density: 1.0800 g/mL
Molecular Formula: (C2H4O)x(C2H4O)z(C2H4O)y(C2H4O)wC24H44O6
MDL Number: MFCD00082107
Quantity: 10 L
Packaging Type: Plastic drum
InChI Key: HDTIFOGXOGLRCB-KTKRTIGZNA-N
SMILES: CCCCCCCC\C=C/CCCCCCCC(=O)OCCOCC(OCCO)C1OCC(OCCO)C1OCCO

IUPAC Name: 2-{2-[3,5-bis(2-hydroxyethoxy)oxolan-2-yl]-2-(2-hydroxyethoxy)ethoxy}ethyl (9E)-octadec-9-enoate
Molecular Weight (g/mol): 604.82
Solubility: Solubility in water: 100g/L.
Other solubilities: 100g/L isopropyl alcohol, 10g/L xylene,
insoluble in propylene glycol and mineral oil
Form: Viscous Liquid
Molecular Weight: 604.8
Molecular Formula: C32H60O10
Melting Point: -21°C
Flash Point: >110°C
Purity: 99%+
Density: 1.064
Appearance: Clear Colourless Oil
Storage: Room Temperature
Assay: 0.99
Refractive Index: 1.471-1.473
Stability: Stable under normal temperatures and pressures.

Molar mass: 1310 g/mol
Appearance: Amber colored liquid, Amber viscous grease
Density: 1.102 g/mL, oily liquid
Boiling point: > 100°C
Solubility in water: 100 mL/L
Solubility in other solvents:
soluble in ethanol
cottonseed oi, corn oil
ethyl acetate, methanol, toluene
Viscosity: 300–500 centistokes (@25°C)
Hydroxyl value: 65~82
Saponification number: 43~55
Acid value: ≤2
PSA: 133.14000
XLogP3: 4.46260
Appearance:: Polysorbate 80 is an amber-colored viscous liquid.
pH: (5% aqueous solution) 5-7.
Faint odor and bitter taste. (NTP, 1992)
Density: 1.06-1.10 g/cm3
Melting Point: -21ºC
Boiling Point: > 100ºC
Flash Point: >110ºC
Refractive Index: 1.471-1.473
Water Solubility: H2O: 5-10 g/100 mL at 23 ºC
Storage Conditions: Store at RT.

Vapor Pressure: PH: pH of 5% aqueous solution between 6 and 8
Appearance Form: liquid
Color: yellow
Odor: No data available
Odor Threshold: No data available
pH: No data available
Melting point/freezing point: No data available
Initial boiling point and boiling range: No data available
Flash point: > 113 °C - closed cup
Evaporation rate: No data available
Flammability (solid, gas): No data available
Upper/lower flammability or explosive limits: No data available
Vapor pressure: < 1,33 hPa at 20 °C
Vapor density: No data available
Relative density: No data available
Water solubility: No data available
Partition coefficient: n-octanol/water: No data available
Autoignition temperature: No data available
Decomposition temperature: No data available
Viscosity Viscosity, kinematic: No data available
Viscosity, dynamic: No data available
Explosive properties No data available
Oxidizing properties No data available
Other safety information
No data available



FIRST AID MEASURES of POLYSORBATE 80:
-Description of first-aid measures
*If inhaled
After inhalation:
Fresh air.
*In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with water/ shower.
*In case of eye contact:
After eye contact:
Rinse out with plenty of water.
Remove contact lenses.
*If swallowed:
After swallowing:
Make victim drink water (two glasses at most).
Consult doctor if feeling unwell.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of POLYSORBATE 80:
-Environmental precautions:
Do not let product enter drains.
-Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.
Observe possible material restrictions.
Take up with liquid-absorbent material.
Dispose of properly.



FIRE FIGHTING MEASURES of POLYSORBATE 80:
-Extinguishing media:
--Suitable extinguishing media:
Foam
Carbon dioxide (CO2)
Dry powder
--Unsuitable extinguishing media:
For this substance/mixture no limitations of extinguishing agents are given.
-Special hazards arising from the substance or mixture:
Nature of decomposition products not known.



EXPOSURE CONTROLS/PERSONAL PROTECTION of POLYSORBATE 80:
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection
Use safety glasses.
*Skin protection
Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0,4 mm
Break through time: 480 min
Splash contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 30 min
*Respiratory protection:
Not required.
-Control of environmental exposure:
Do not let product enter drains.



HANDLING and STORAGE of POLYSORBATE 80:
-Conditions for safe storage, including any incompatibilities:
Storage conditions
Tightly closed.
Store at room temperature.



STABILITY and REACTIVITY of POLYSORBATE 80:
-Chemical stability:
The product is chemically stable under standard ambient conditions (room temperature) .
-Incompatible materials:
No data available



SYNONYMS:
Polyoxyethylene (20) sorbitan monooleate
Kolliphor PS 80
Montanox 80
Alkest TW 80
Tween 80
PS 80
Kotilen-80
Tween 80
Polyoxyethylene 20 sorbitane molooleate
Peg 3 Sorbitane Oleate
Inhibited Ethylene Glycol
Inhibited ethylene glycol, antifreeze
Polysorbate 80
E 433
Polyethoxylated Sorbitan Monooleate
Tween 80
Polyoxyethylene sorbitan monooleate (polysorbate 80)
Tween 80
Polyoxyethylene (20) sorbitan monooleate
polyoxyethylene sorbitan monoleate
polysorbate 80
polyoxyethylene (20) sorbitan monooleate
Sorbitan,mono-(9Z)-9-octadecenoate,poly(oxy-1,2-ethanediyl) derivs.
Sorbitan,monooleate,polyoxyethylene derivs.
Sorbitan,mono-9-octadecenoate,poly(oxy-1,2-ethanediyl) derivs.,(Z)-
Glycols,polyethylene,ether with sorbitan monooleate
Olothorb
Polyoxyethylene sorbitan monooleate
Polysorban 80
Sorlate
Tween 80A
Tween 81
Polysorbate 80
Tween 80
Crillet 4
Hodag SVO 9
Polyethylene glycol sorbitan monooleate
Hexaethylene glycol sorbitan monooleate
Tris(polyoxyethylene)sorbitan monooleate
Polyoxyethylenesorbitan oleate
Ethoxylated sorbitan monooleate
Sorbimacrogol oleate
Polyoxyethylene monosorbitan monooleate
Polyoxyethylated sorbitan monooleate
Ethylene oxide-sorbitan monooleate polymer
Sorbital O 20
Crill 10
Crill 11
Crill S 10
Polysorbate 81
Emsorb 6900
Glycosperse O 20
Sorbon T 80
Durfax 80
SVO 9
Nikkol TO 10
Atlox 1087
Sorbitan monooleate polyethylene glycol ether
Romulgin O
Polyethylene glycol sorbitan ether monooleate
Montanox 80
Atlox 8916TF
MO 55F
Polyethoxylated sorbitan monooleate
Setrolene O
Emulson 10OM
Nikkol TO 10M
Tween 18:1c
Nikkol TO 106
Sorbitan monooleate polyoxyethylene ether
Crillet 41
Rheodol TW-O 120
Ionet T 80
Value TN 80
Sorgen TW 80
Rheodol TW-O 106
Ionet T 80C
Sorbitan oleate-ethylene oxide adduct
Flo Mo SMO 20
Eumulgin SMO 20
Disponil SMO 120
Glycosperse O 5
Alkamuls PSMO 20
Cemesol TW 1020
Nissan Nonion OT 221
TO 10M
Sorbitan monooleate ethylene oxide adduct
Witconol 2722
Rheodol Super TW-O 120
Cemerol T 80
Nonion OT 221
Crillet 4 Super
Silvan T 80
Radiasurf 7157
Myvatex MSPS
Polisorbac 60
T-MAZ 80
T-MAZ 80K
T 80C
Sorbimacrogol oleate 100
Sorbimacrogol oleate 300
Emasol O 105R
Rheodol TQ-O 106
Capmul POE-O
Sorbax PMO 20
Alkamuls T 80
T-MAZ 81
Ecoteric T 80
Montanox 81VG
TW-O 120
Montanox DF 80
Lamesorb SMO 20
POE sorbitan monooleate
Sorporol 120
Nonio-light 0-30
Nonio-light SPO 1
Rheodol TW-O 120V
E 433
E 433 (polyglycol)
PEO(20) sorbitan monooleate
Rheodol TW-O 106V
Ethylan GE 08
Canarcel TW 80
Ionet-T 80PA
Nikkol TO 10V
PEG sorbitan monooleat
PEG-20 Sorbitan Monooleate
Polysorbate 80
E433
PS80
Polyethylene sorbitan monooleate
Ethoxylated sorbitan monooleate
Polyoxyethylene sorbitan monooctadecenoate
Polysorban
Polyethylene glycol, sorbitan monooleate

POLYSORBATE 80
Polysorbate 80 is a nonionic surfactant
Polysorbate 80 is an emulsifier
Polysorbate 80 is used in pharmaceuticals


CAS NUMBER: 9005-65-6

EC NUJMBER: 500-019-9

MOLECULAR FORMULA: C32H60O10

MOLECULAR WEIGHT: 604.8 g/mol

IUPAC NAME: 2-[2-[3,4-bis(2-hydroxyethoxy)oxolan-2-yl]-2-(2-hydroxyethoxy)ethoxy]ethyl octadec-9-enoate


Polysorbate 80 can be used in foods
Polysorbate 80 is also used cosmetics.

Polysorbate 80 is synthetic compound
Polysorbate 80 is viscous

Polysorbate 80 is water-soluble
Polysorbate 80 has a yellow liquid form

Chemistry of Polysorbate 80:
Polysorbate 80 is derived from polyethoxylated sorbitan and oleic acid.
The hydrophilic groups in this compound are polyethers also known as polyoxyethylene groups, which are polymers of ethylene oxide. In the nomenclature of polysorbates, the numeric designation following polysorbate refers to the lipophilic group, in this case, the oleic acid (see polysorbate for more detail).

The full chemical names for Polysorbate 80 are:
*Polyoxyethylene (80) sorbitan monooleate
*(x)-sorbitan mono-9-octadecenoate poly(oxy-1,2-ethanediyl)

The critical micelle concentration of polysorbate 80 in pure water is reported as 0.012 mM

USES:
Food:
Polysorbate 80 is used as an emulsifier in foods.
For example, in ice cream, polysorbate is added up to 0.5% (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.
Adding this substance prevents milk proteins from completely coating the fat droplets.
This allows them to join in chains and nets, which hold air in the mixture, and provide a firmer texture that holds its shape as the ice cream melts.

Health and Beauty:
Polysorbate 80 is also used as a surfactant in soaps and cosmetics (including eyedrops), or a solubilizer, such as in a mouthwash.
The cosmetic grade of polysorbate 80 may have more impurities than the food grade.

Medical:
Polysorbate 80 is a surfactant and solubilizer used in a variety of oral and topical pharmaceutical products.
Polysorbate 80 is an excipient that is used to stabilize aqueous formulations of medications for parenteral administration, and used as an emulsifier in the making of the antiarrhythmic amiodarone.

Polysorbate 80 is also used as an excipient
Polysorbate 80 is found in many vaccines

Polysorbate 80 is used in the culture of Mycobacterium tuberculosis
Polysorbate 80 is also used as an emulsifier in the estrogen-regulating drug Estrasorb.
Polysorbate 80 is also used in granulation for stabilization of drugs and excipients when IPA binding.

Also known as tween 80, Polysorbate 80 is a class of emulsifiers used in pharmaceuticals and food preparation.
Polysorbate 80 is often used in cosmetics to solubilise essential oils and fragrance oils into water-based products.

USAGE AREAS:
*Emulsifier
*Dispersant
*Solubilizer
*Lubricant
*Detergent
*Antistat
*Wetting agent for cosmetics
*Pharmaceuticals
*Polishes
*Insecticides
*Leather degreasing
*Veterinary products

Polysorbate 80 is a non-ionic, hydrophilic emulsifier
Polysorbate 80 is co-emulsifier and solubilizer for pharmaceutical preparations like emulsions and creams, gels and foams as well as softgels.

Polysorbate 80 is non-ionic surfactants and emulsifiers derived from polyethoxylated sorbitan and stearic or oleic acid.
Polysorbate 80 is mainly used as a solubilizer, emulsifier or suspension stabilizer for pharmaceutical application.

Depending on the HLB value of the product they can either act as solubilzer or emulsifier.
Polysorbate 80 is its high HLB value more suitable as a solubilizer of poorly water soluble drug substances in either liquid or solid dosage forms.
Polysorbate 80 is suitable for usage in physical mixing, melt granulation, spray drying and hot melt extrusion processes.

Polysorbate 80 can be used as an emulsifier in foods, medicines, cosmetics, textiles, agriculture, and occasionally in laboratory identification of bacteria.
Polysorbate 80 is a common fragrance and essential oil solublizer as well as an emulsifying agent.

Polysorbate 80 is soluble in water and alcohol and insoluble in oils.
Polysorbate 80 is typically a co-emulsifier that is used both as a viscosity modifier and a dispersing agent for fragrances and essential oils for room sprays and linen sprays.

When combined with liquid oils, Polysorbate 80 creates a blooming bath oil.
Polysorbate 80 can also be used in a self-emulsifying sugar or salt scrub.


PHYSICAL PROPERTIES:

-Molecular Weight: 604.8 g/mol

-XLogP3-AA: 4.8

-Exact Mass: 604.41864811 g/mol

-Monoisotopic Mass: 604.41864811 g/mol

-Topological Polar Surface Area: 133Ų

-Physical Description: Lemon to amber colored liquid

-Color: Yellow to orange colored

-Form: oily liquid

-Flash Point: > 300 °F

-Solubility: 1.9X10-2 mg/L

-Density: 1.06-1.10

-Viscosity: 300-500 cSt


Polysorbate 80 is a substance formulated by the reaction of sorbitan fatty acid ester (a nonionic surfactant) with ethylene oxide
Polysorbate 80 is a hydrophilic nonionic surfactant.

Polysorbate 80 is utilized as a surfactant in soaps and cosmetics and also as a lubricant in eye drops.
In food or pharmaceutical products, Polysorbate 80 can act as an emulsifier.


CHEMICAL PROPERTIES:

-Hydrogen Bond Donor Count: 3

-Hydrogen Bond Acceptor Count: 10

-Rotatable Bond Count: 31

-Heavy Atom Count: 42

-Formal Charge: 0

-Complexity: 632

-Isotope Atom Count: 0

-Defined Atom Stereocenter Count: 0

-Undefined Atom Stereocenter Count: 4

-Defined Bond Stereocenter Count: 0

-Undefined Bond Stereocenter Count: 1

-Covalently-Bonded Unit Count: 1

-Compound Is Canonicalized: Yes

-Chemical Classes: Other Classes -> Polyoxyethylenes


Polysorbate 80 is an excipient that is used to stabilize aqueous formulations of medications for parenteral administration or vaccinations.
Polysorbate 80 is a solubilizing agent

Polysorbate 80 acts as a surfactant and increases the solubility of one agent in another.
Polysorbate 80 is a substance that would not normally dissolve in a particular solution is able to dissolve with the use of a solubilizing agent.

Polysorbate 80 is also known as an emulsifier, which helps ingredients mix together and prevent separation, and water-containing small amounts of salts
Polysorbate 80 is a surfactant and emulsifier

Polysorbate 80 is used in cleaners and personal care products.
Polysorbate 80 is a class of emulsifiers used in pharmaceuticals and food preparation.

Polysorbate 80 is often used in cosmetics to solubilise essential oils and fragrance oils into water-based products.
Polysorbate 80 is an amber/golden-colored viscous liquid used as as an emulsifier or surfactant in foods, medicines, skincare products, vaccines etc.

Polysorbate 80 also acts as a surfactant in soaps and cosmetics.
Polysorbate 80 helps bind ingredients like oil and water to each other.

As well as dispersing colour throughout water, making them perfect for use in bath bombs.
Polysorbate 80, stop oils and colour from sticking to your tub, reducing the risk of it being slippery and once rinsed, leaving your tubs nice and clean.

Polysorbate 80 is made from polyethoxylated sorbitan (chemical compounds derived from the dehydration of sugar alcohol), ethylene oxide and oleic acid, a fatty acid found in animal and vegetable fats
Polysorbate 80 is often an ingredient in body washes, hair shampoos, lotions, creams, bath oils etc..

Polysorbate 80 is a safe, non-ionic emulsifier. It can be used with a co-emulsifier, such as Lecithin to cover a wide range of oil in water, and water in oil emulsion systems.
Individually, Polysorbate 80 is an excellent solubiliser of essential oils, wetting agent, viscosity modifier, stabiliser and dispersing agent.

Polysorbate 80 is an additive used in processed food products for its emulsifying properties (ability to prevent fats from separating out).
Commercially produced frozen desserts, shortenings, baking mixes and icings, and canned vegetables are some of the foods that may contain polysorbate 80.

Additionally, Polysorbate 80 is used as a dispersing agent for fat-soluble vitamins in vitamin-mineral dietary supplements and is commonly used in many pharmaceutical drugs.
Polysorbate 80 may compromise proper gastrointestinal function.
Research studies have repeatedly shown that it can increase intestinal membrane permeability (how much the intestinal membrane allows to pass through into the bloodstream) through a variety of means including causing the release of enzymes that damage the structure of the cells that make up the intestinal membrane.

Polysorbate 80 is also a surfactant which is a material that lowers the surface tension of a liquid that makes it easier and smoother to spread. Because of these characteristics, polysorbate 80 is used for a variety of cosmetics and personal care products.
Polysorbate 80 specifically is a common fragrance and essential oil solubiliser as well as an emulsifying agent.

Soluble in alcohol and water but not in oil, Polysorbate 80 is characteristically a co-emulsifier that is used to modify the viscosity (i.e. thickness) of a product.
Polysorbate 80 is generally used to combine thicker or heavier oils such as sunflower oil, argan oil and other thick carrier oils.

Polysorbate 80 is usually added to cosmetic formulations during the oil process which can help to achieve a uniform consistency by allowing different ingredients to mix more thoroughly.
Polysorbate 80 helps creams, lotions, and gels remain stable, particularly those made with cold processes.

Polysorbate 80 can be added to a variety of sprays as a fragrance and essential oil dispersal agent.
Bath oils, for example, can be made by mixing Polysorbate 80 with an appropriate liquid. Bath bombs, sugar or salt scrubs, and whipping or foaming body creams are all examples of items that contain it.

Polysorbate is also known for its soothing feeling when it is applied to the skin, making it an excellent cosmetic ingredient for skincare products of all styles and conditions.
Polysorbate 80 is a hydrophilic nonionic surfactant.

Polysorbate 80 is utilized as a surfactant in soaps and cosmetics and also as a lubricant in eye drops.
In food or pharmaceutical products, Polysorbate 80 can act as an emulsifier.

Polysorbate 80 is an excipient that is used to stabilize aqueous formulations of medications for parenteral administration or vaccinations.
Polysorbate 80 is a solubilizing agent acts as a surfactant and increases the solubility of one agent in another.
Polysorbate 80 is a substance that would not normally dissolve in a particular solution is able to dissolve with the use of a solubilizing agent.


SYNONYMS:

Polysorbate 80
Monitan
Sorbimacrogol oleate 300
Tween 81
6OZP39ZG8H
Armotan pmo-20
Atlox 1087
Capmul POE-O
Crillet 4
Drewmulse poe-smo
Durfax 80
Emsorb 6900
Ethoxylated sorbitan monooleate
MO 55F
Montanox 80
NCI-C60286
Polyethylene glycol 300 sorbitan monooleate
Polyethylene oxide sorbitan mono-oleate
Polyoxyethylene (5) sorbitan monooleate
Polyoxyethylene 20 sorbitan monooleate
Polyoxyethylene sorbitan oleate
Polysorban 80
Protasorb O-20
Romulgin O
SVO 9
Sorbon T 80
Sorlate
Atlox 8916TF
CHEBI:53426
Cemerol T 80
Cemesol TW 1020
Crill 10
Crill 11
Crill S 10
Crillet 4 Super
Crillet 41
Disponil SMO 120
Glycol (Polysorbate 80)
Glycosperse O 20
Glycosperse O 5
Glycosperse O-20
Glycosperse O-20 VEG
Glycosperse O-20X
Hodag SVO 9
Myvatex MSPS
Nikkol TO
Nikkol TO 10
Nikkol TO 10M
Nissan Nonion OT 221
Nonion OT 221
Olothorb
PEG-3 Sorbitan oleate
Peg-20 sorbitan oleate
Polisorbac 60
Polyethylene glycol (3) sorbitan monooleate
Polyoxyethylene (20) sorbitan monooleate
Polyoxyethylene (3) sorbitan monooleate
Polysorbate 80 B.P.C.
Polysorbate 80 BPC
Polysorbate 80, USP
Sorbimacrogol oleate
Sorbitan monooleate, ethoxylated
Sorbitan, monooleate polyoxyethylene deriv.
T-Maz 80
TO 10
sorbitan, monooleate, Polyoxyethylene derivs
(X)-SORBITAN MONO-9-OCTADECENOATE POLY(OXY-1,2-ETHANEDIYL) DERIVS
(Z)-sorbitan mono-9-octadecenoate poly(oxy 1,2-ethanediyl) derivatives
80s, Polysorbate
ALKAMULS PSMO 20
Akamuls PSMO 20
Alkamuls T 80
Atlas E
Atolox 8916TF
Avitears
CCRIS 700
Cremophor PS 80
Crillet 50
DTXSID0021175
Drewpone 80K
E-433
EC 500-019-9
EMULSON 10OM
ETHYLENE OXIDE-SORBITAN MONOOLEATE POLYMER
Ecoteric T 80
Emasol O 105R
Emrite 6120
Emulson 100M
Eumulgin SMO
GLYCOSPERSE 0-20
GLYCOSPERSE 0-20 VEG
GLYCOSPERSE 0-20X
HEXAETHYLENE GLYCOL SORBITAN MONOOLEATE
HSDB 4359
Hodag PSMO-20
INS NO.433
INS-433
IONET T 80
IONET T 80C
LIPOSORB 0-20
Liposorb O-20
MF59 COMPONENT TWEEN 80
NIKKOL TO 106
POLYETHOXYLATED SORBITAN MONOOLEATE
POLYETHYLENE GLYCOL SORBITAN ETHER MONOOLEATE
POLYETHYLENE GLYCOL SORBITAN MONOOLEATE
POLYOXYETHYLATED SORBITAN MONOOLEATE
POLYOXYETHYLENE MONOSORBITAN MONOOLEATE
POLYOXYETHYLENE(20)SORBITAN MONO-OLEATE
POLYOXYETHYLENE(20)SORBITAN MONOOLEATE
POLYOXYETHYLENESORBITAN OLEATE
POLYSORBATA 80
POLYSORBATE 80,U.S.P.
Peg sorbitan oleate
Poly(20)oxyethylene sorbitan monooleate
Polyethylene sorbitan monooleate
Polyoxyethylene 20 oleate
Polyoxyethylene(20) sorbitan monooleate
Polysorbate 80, U.S.P.
Polysorbate 80s
Polysorbatum 80
RADIASURF 7157
RHEODOL SUPER TW-O 120
RHEODOL TW-O 106
RHEODOL TW-O 120
Ritabate 80
SETROLENE O
SILVAN T 80
SORBAX PMO-20
SORBIMACROGOL OLEATE 100
SORBITAL O 20
SORBITAN MONO-OLEATE POLYOXYETHYLENE
SORBITAN MONOLEATE
SORBITAN MONOOLEATE POLYETHYLENE GLYCOL ETHER
SORBITAN MONOOLEATE POLYOXYETHYLENE ETHER
SORBITAN OLEATE-ETHYLENE OXIDE ADDUCT
SORBITAN, MONO-9-OCTADECENOATE, POLY(OXY-1,2-ETHANEDIYL) DERIVS., (Z)-
SORBITAN, MONOOLEATE, POLYOXYETHYLENE DERIVS.
SORETHYTAN (20) MONO-OLEATE
SORGEN TW 80
Sorbital 0 20
Sorbitan mono-9-octadecenoate poly(oxy-1,2-ethanediyl)
Sorbitan, mono-9-octadecenoate, poly(oxy-1,2-ethanediyl)
Sorethytan (20) monooleate
Sorethytan oleate
T 80C
T-MAZ 80K
TO 10M
TRIS(POLYOXYETHYLENE)SORBITAN MONOOLEATE
TWEEN 18:1C
TWEEN 80A
TWEEN-80
Tego SMO 80
Tego SMO 80V
Tween 80 A
UNII-2MSF640LWM
UNII-58O7V09UCI
UNII-6OZP39ZG8H
VALUE TN 80
WITCONOL 2722
polyoxyethylene-sorbitan-20 mono-oleate
sorbitan, mono-9-octadecenoate, poly(oxy-1,2-ethanediyl) derivs, (Z)-
MONO-9-OCTADECENOATE POLY(OXY-1,2-ETHANEDIYL) DERIVS. SORBITAN
POLY(OXY-1,2-ETHANEDIYL) DERIVS. SORBITAN, MONO-9-OCTADECENOATE
POLYOXYETHYLENE (20) SORBITAN MONOOLEATE
POLYSORBATE 80
POLYSORBATE-80
SORBIMACROGOL OLEATE 300
SORBITAN, MONO-(9Z)-9-OCTADECENOATE, POLY(OXY-1,2-ETHANEDIYL) DERIVS.
SORBITAN, MONO-9-OCTADECENOATE, (Z)-POLY(OXY-1,2-ETHANEDIYL) DERIVS.
SORBITAN, MONO-9-OCTADECENOATE, POLY(OXY-1,2-ETHANEDIYL) DERIVS.
SORBITAN, MONO9OCTADECENOATE, POLY(OXY1,2ETHANEDIYL)


POLYSORBATE 80
DESCRIPTION:
Polysorbate 80 is a nonionic surfactant and emulsifier often used in pharmaceuticals, foods, and cosmetics.
Polysorbate 80 is a viscous, water-soluble yellow liquid.

CAS Number: 9005-65-6


Polysorbate 80, a substance formulated by the reaction of sorbitan fatty acid ester (a nonionic surfactant) with ethylene oxide, is used in many foreign countries, including the U.S. and the EU, where it acts as an emulsifier, a solubilizer in many foods, including bread, cake mix, salad dressing, shortening oil and chocolate.
Polysorbate 80 is a hydrophilic nonionic surfactant. It is utilized as a surfactant in soaps and cosmetics and also as a lubricant in eye drops. In food or pharmaceutical products, it can act as an emulsifier.
Polysorbate 80 is an excipient that is used to stabilize aqueous formulations of medications for parenteral administration or vaccinations.

A solubilizing agent acts as a surfactant and increases the solubility of one agent in another.
A substance that would not normally dissolve in a particular solution is able to dissolve with the use of a solubilizing agent.
Polysorbate 80 is also known as an emulsifier, which helps ingredients mix together and prevent separation, and water-containing small amounts of salts, and is included in several vaccines licensed in the USA.


Polysorbate 80 is an amber/golden-colored water-soluble viscous liquid.
It is manufactured from polyethoxylated sorbitan (derived from the dehydration of sorbitol, a sugar alcohol) and oleic acid, a fatty acid found in animal and vegetable fats.
Due to this structure, polysorbate 80 forms an approximate hydrophilic-lipophilic balance of 15.

The final products are free from genetically modified organisms and of vegetable origin.
Polysorbate 80 (or E433) is a non-ionic surfactant and emulsifier find use in foods as emulsifier for salad dressings and chocolates, in cosmetics for preparing skin, facial cleansers and hair care products, and to disperse active ingredients in pharmaceuticals benefiting the pharmacological industry.

The solubility of Polysorbate 80 allows it to assist in dissolving ingredients that would remain solid under normal circumstances.
In foods like ice cream, Polysorbate 80 is added up to 0.5% (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.
Vitamins, tablets, and supplements also contain Polysorbate 80 because of its preservative nature.
Polysorbate 80 being a nonionic surfactant is used in soaps and cosmetics (including eyedrops), or as solubilizer in mouthwashes.

In order to get the same wonderful colors you use in your other bath and body products, add Polysorbate 80 at about 2 % (of your total batch) in your liquid stage.
This should eliminate any ring around the tub or floating mica that can occur if you don't use it.






CHEMISTRY OF POLYSORBATE 80:
Polysorbate 80 is derived from polyethoxylated sorbitan and oleic acid.
The hydrophilic groups in this compound are polyethers also known as polyoxyethylene groups, which are polymers of ethylene oxide.
In the nomenclature of polysorbates, the numeric designation following polysorbate refers to the lipophilic group, in this case, the oleic acid (see polysorbate for more detail).


The full chemical names for polysorbate 80 are:
Polyoxyethylene (80) sorbitan monooleate
(x)-sorbitan mono-9-octadecenoate poly(oxy-1,2-ethanediyl)
The critical micelle concentration of polysorbate 80 in pure water is reported as 0.012 mM.

USES OF POLYSORBATE 80:
Food:
Polysorbate 80 is used as an emulsifier in foods, though research suggests it may "profoundly impact intestinal microbiota in a manner that promotes gut inflammation and associated disease states."

For example, in ice cream, polysorbate is added up to 0.5% (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.
Adding this substance prevents milk proteins from completely coating the fat droplets.
This allows them to join in chains and nets, which hold air in the mixture, and provide a firmer texture that holds its shape as the ice cream melts.

Health and beauty:
Polysorbate 80 is also used as a surfactant in soaps and cosmetics (including eyedrops), or a solubilizer, such as in a mouthwash.
The cosmetic grade of polysorbate 80 may have more impurities than the food grade.


Medical:
Polysorbate 80 is a surfactant and solubilizer used in a variety of oral and topical pharmaceutical products.
Polysorbate 80 is an excipient that is used to stabilize aqueous formulations of medications for parenteral administration, and used as an emulsifier in the making of the antiarrhythmic amiodarone.
Polysorbate 80 is also used as an excipient in some European and Canadian influenza vaccines.

Influenza vaccines contain 2.5 μg of polysorbate 80 per dose.
Polysorbate 80 is found in many vaccines used in the United States, including the Janssen COVID-19 vaccine.
Polysorbate 80 is used in the culture of Mycobacterium tuberculosis in Middlebrook 7H9 broth.

Polysorbate 80 is also used as an emulsifier in the estrogen-regulating drug Estrasorb.
Polysorbate 80 is also used in granulation for stabilization of drugs and excipients when IPA binding.

Laboratory:
Some mycobacteria contain a type of lipase (enzyme that breaks up lipid molecules); when these species are added to a mixture of polysorbate 80 and phenol red, they cause the solution to change color, so this is used as a test to identify the phenotype of a strain or isolate.

On RODAC agar plates used in microbiological control, polysorbate 80 counteracts disinfectants often found on sampled surfaces, thereby allowing the microbes found on these surfaces to grow


SAFETY INFORMATION ABOUT POLYSORBATE 80:
First aid measures:
Description of first aid measures:
General advice:
Consult a physician.
Show this safety data sheet to the doctor in attendance.
Move out of dangerous area:

If inhaled:
If breathed in, move person into fresh air.
If not breathing, give artificial respiration.
Consult a physician.
In case of skin contact:
Take off contaminated clothing and shoes immediately.
Wash off with soap and plenty of water.
Consult a physician.

In case of eye contact:
Rinse thoroughly with plenty of water for at least 15 minutes and consult a physician.
Continue rinsing eyes during transport to hospital.

If swallowed:
Do NOT induce vomiting.
Never give anything by mouth to an unconscious person.
Rinse mouth with water.
Consult a physician.

Firefighting measures:
Extinguishing media:
Suitable extinguishing media:
Use water spray, alcohol-resistant foam, dry chemical or carbon dioxide.
Special hazards arising from the substance or mixture
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas

Advice for firefighters:
Wear self-contained breathing apparatus for firefighting if necessary.
Accidental release measures:
Personal precautions, protective equipment and emergency procedures
Use personal protective equipment.

Avoid breathing vapours, mist or gas.
Evacuate personnel to safe areas.

Environmental precautions:
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Methods and materials for containment and cleaning up:
Soak up with inert absorbent material and dispose of as hazardous waste.
Keep in suitable, closed containers for disposal.

Handling and storage:
Precautions for safe handling:
Avoid inhalation of vapour or mist.

Conditions for safe storage, including any incompatibilities:
Keep container tightly closed in a dry and well-ventilated place.
Containers which are opened must be carefully resealed and kept upright to prevent leakage.
Storage class (TRGS 510): 8A: Combustible, corrosive hazardous materials

Exposure controls/personal protection:
Control parameters:
Components with workplace control parameters
Contains no substances with occupational exposure limit values.
Exposure controls:
Appropriate engineering controls:
Handle in accordance with good industrial hygiene and safety practice.
Wash hands before breaks and at the end of workday.

Personal protective equipment:
Eye/face protection:
Tightly fitting safety goggles.
Faceshield (8-inch minimum).
Use equipment for eye protection tested and approved under appropriate government standards such as NIOSH (US) or EN 166(EU).

Skin protection:
Handle with gloves.
Gloves must be inspected prior to use.
Use proper glove
removal technique (without touching glove's outer surface) to avoid skin contact with this product.
Dispose of contaminated gloves after use in accordance with applicable laws and good laboratory practices.
Wash and dry hands.

Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
Splash contact
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
It should not be construed as offering an approval for any specific use scenario.

Body Protection:
Complete suit protecting against chemicals, The type of protective equipment must be selected according to the concentration and amount of the dangerous substance at the specific workplace.
Respiratory protection:
Where risk assessment shows air-purifying respirators are appropriate use a fullface respirator with multi-purpose combination (US) or type ABEK (EN 14387) respirator cartridges as a backup to engineering controls.

If the respirator is the sole means of protection, use a full-face supplied air respirator.
Use respirators and components tested and approved under appropriate government standards such as NIOSH (US) or CEN (EU).
Control of environmental exposure
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Stability and reactivity:
Chemical stability:
Stable under recommended storage conditions.
Incompatible materials:
Strong oxidizing agents:
Hazardous decomposition products:
Hazardous decomposition products formed under fire conditions.
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas.

Disposal considerations:
Waste treatment methods:
Product:
Offer surplus and non-recyclable solutions to a licensed disposal company.
Contact a licensed professional waste disposal service to dispose of this material.
Contaminated packaging:
Dispose of as unused product










CHEMICAL AND PHYSICAL PROPERTIES OF POLYSORBATE 80:
Chemical formula C64H124O26
Molar mass 1310 g/mol
Appearance Amber colored oil
Density 1.102 g/mL
Boiling point > 100°C
Solubility in water 100 mL/L
Solubility in other solvents soluble in ethanol, cottonseed oil, corn oil, ethyl acetate, methanol, toluene
Viscosity 300–500 centistokes (@25°C)


Other names
E number: E433

Brand names:
Kolliphor PS 80[4] - Kolliphor is a registered trademark of BASF
Alkest TW 80
Scattics
Canarcel
Poegasorb 80
Montanox 80 – Montanox is a registered trademark of Seppic
Tween 80 – Tween is a registered trademark of Croda Americas, Inc.
Kotilen-80 - Kotilen is a registered trademark of Kolb AG



SYNONYMS OF POLYSORBATE 80:
Polysorbate 80
6OZP39ZG8H
Monitan
Sorbimacrogol oleate 300
Armotan PMO-20
Atlox 1087
Capmul POE-O
Crillet 4
Drewmulse poe-smo
Durfax 80
Emsorb 6900
Ethoxylated sorbitan monooleate
MO 55F
Montanox 80
NCI-C60286
Polyethylene glycol 300 sorbitan monooleate
Polyethylene oxide sorbitan mono-oleate
Polyoxyethylene (5) sorbitan monooleate
Polyoxyethylene 20 sorbitan monooleate
Polyoxyethylene sorbitan oleate
Polysorban 80
Protasorb O-20
Romulgin O
SVO 9
Sorbon T 80
Sorlate
Atlox 8916TF
Avitears
CHEBI:53426
Cemerol T 80
Cemesol TW 1020
Crill 10
Crill 11
Crill S 10
Crillet 4 Super
Crillet 41
Disponil SMO 120
Eumulgin SMO 20
FEMA No. 2917
Flo Mo SMO 20
Glycol (Polysorbate 80)
Glycols, polyethylene, ether with sorbitan monooleate
Glycosperse O 20
Glycosperse O 5
Glycosperse O-20
Glycosperse O-20 VEG
Glycosperse O-20X
Hodag SVO 9
IV Solution Stabilizer
Myvatex MSPS
Nikkol TO
Nikkol TO 10
Nikkol TO 10M
Nissan Nonion OT 221
Nonion OT 221
Olothorb
PEG-3 Sorbitan oleate
Peg-20 sorbitan oleate
Polisorbac 60
Polyethylene glycol (3) sorbitan monooleate
Polyoxyethylene (20) sorbitan monooleate
Polyoxyethylene (3) sorbitan monooleate
Polysorbate 80 B.P.C.
Polysorbate 80 BPC
Polysorbate 80, USP
Sorbimacrogol oleate
Sorbitan, monooleate polyoxyethylene deriv.
Sorbitan, monooleate, polyoxyethylene derivs
T-Maz 80
TO 10
(X)-SORBITAN MONO-9-OCTADECENOATE POLY(OXY-1,2-ETHANEDIYL) DERIVS
(Z)-sorbitan mono-9-octadecenoate poly(oxy 1,2-ethanediyl) derivatives
80s, Polysorbate
ALKAMULS PSMO 20
Akamuls PSMO 20
Alkamuls T 80
Atlas E
Atolox 8916TF
CCRIS 700
Cremophor PS 80
Crillet 50
DTXSID0021175
Drewpone 80K
E-433
EC 500-019-9
EMULSON 10OM
ETHYLENE OXIDE-SORBITAN MONOOLEATE POLYMER
Ecoteric T 80
Emasol O 105R
Emrite 6120
Emulson 100M
Eumulgin SMO
GLYCOSPERSE 0-20
GLYCOSPERSE 0-20 VEG
GLYCOSPERSE 0-20X
HEXAETHYLENE GLYCOL SORBITAN MONOOLEATE
HSDB 4359
Hodag PSMO-20
INS NO.433
INS-433
IONET T 80
IONET T 80C
IV STABILIZER
LIPOSORB 0-20
Liposorb O-20
MF59 COMPONENT TWEEN 80
NIKKOL TO 106
POLYETHOXYLATED SORBITAN MONOOLEATE
POLYETHYLENE GLYCOL SORBITAN ETHER MONOOLEATE
POLYETHYLENE GLYCOL SORBITAN MONOOLEATE
POLYOXYETHYLATED SORBITAN MONOOLEATE
POLYOXYETHYLENE MONOSORBITAN MONOOLEATE
POLYOXYETHYLENE(20)SORBITAN MONO-OLEATE
POLYOXYETHYLENE(20)SORBITAN MONOOLEATE
POLYOXYETHYLENESORBITAN OLEATE
POLYSORBATA 80
POLYSORBATE 80 (EP MONOGRAPH)
POLYSORBATE 80 (II)
POLYSORBATE 80 (MART.)
POLYSORBATE 80 (USP-RS)
POLYSORBATE 80,U.S.P.
Peg sorbitan oleate
Poly(20)oxyethylene sorbitan monooleate
Polyethylene sorbitan monooleate
Polyoxyethylene 20 oleate
Polyoxyethylene(20) sorbitan monooleate
Polysorbate 80, U.S.P.
Polysorbate 80s
Polysorbatum 80
RADIASURF 7157
RHEODOL SUPER TW-O 120
RHEODOL TW-O 106
RHEODOL TW-O 120
Ritabate 80
SETROLENE O
SILVAN T 80
SORBAX PMO-20
SORBIMACROGOL OLEATE 100
SORBITAL O 20
SORBITAN MONO-OLEATE POLYOXYETHYLENE
SORBITAN MONOLEATE
SORBITAN MONOOLEATE ETHYLENE OXIDE ADDUCT
SORBITAN MONOOLEATE POLYETHYLENE GLYCOL ETHER
SORBITAN MONOOLEATE POLYOXYETHYLENE ETHER
SORBITAN OLEATE-ETHYLENE OXIDE ADDUCT
SORBITAN, MONO-9-OCTADECENOATE, POLY(OXY-1,2-ETHANEDIYL) DERIVS., (Z)-
SORBITAN, MONOOLEATE, POLYOXYETHYLENE DERIVS.
SORETHYTAN (20) MONO-OLEATE
SORGEN TW 80
Sorbital 0 20
Sorbitan mono-9-octadecenoate poly(oxy-1,2-ethanediyl) derivatives
Sorbitan, mono-9-octadecenoate, poly(oxy-1,2-ethanediyl) derivs.
Sorethytan (20) monooleate
Sorethytan oleate
T 80C
T-MAZ 80K
TO 10M
TRIS(POLYOXYETHYLENE)SORBITAN MONOOLEATE
TWEEN 18:1C
TWEEN 80A
TWEEN-80
Tego SMO 80
Tego SMO 80V
Tween 80 A
UNII-2MSF640LWM
UNII-58O7V09UCI
UNII-6OZP39ZG8H
VALUE TN 80
WITCONOL 2722
polyoxyethylene-sorbitan-20 mono-oleate
sorbitan, mono-9-octadecenoate, poly(oxy-1,2-ethanediyl) derivs, (Z)-



POLYSORBATE 80 (E433)
Polysorbate 80 (E433) is a synthetic compound that is widely applied in a variety of fields, including foods, medicines, and cosmetics.
In food production, Polysorbate 80 (E433) is commonly used as a defoamer for the fermenting process of some wines and as a emulsifier in ice-cream or “puddings” to keep the creamy texture without separating.
Polysorbate 80 (E433) is also extensively applied in pharmaceutical industry, where it can be found in some vaccines, vitamins and supplements.

CAS: 9005-65-6
MF: C24H44O6
MW: 428.600006103516
EINECS: 500-019-9

Polysorbate 80 (E433) is an effective excipient to stabilize aqueous formulations of medications for parenteral administration and to improve the consistency of gel capsules, thus to make pills disperse in the stomach.
Besides, Polysorbate 80 (E433) commonly serve as a surfactant and solubilizer in the production of soaps and cosmetics, which is effective to help dissolve ingredients and make products look creamier and more attractive.
In laboratory, Polysorbate 80 (E433) is occasionally used for a test to identify the phenotype of a strain or isolate, such as mycobacteria.

Polysorbate 80 (E433) a substance formulated by the reaction of sorbitan fatty acid ester (a nonionic surfactant) with ethylene oxide, is used in many foreign countries, including the U.S. and the EU, where it acts as an emulsifier, a solubilizer in many foods, including bread, cake mix, salad dressing, shortening oil and chocolate.
Polysorbate 80 (E433) is a hydrophilic nonionic surfactant.
Polysorbate 80 (E433) is utilized as a surfactant in soaps and cosmetics and also as a lubricant in eye drops.
In food or pharmaceutical products, Polysorbate 80 (E433) can act as an emulsifier.
Polysorbate 80 (E433) is an excipient that is used to stabilize aqueous formulations of medications for parenteral administration or vaccinations.
Polysorbate 80 (E433) acts as a surfactant and increases the solubility of one agent in another.
Polysorbate 80 (E433) that would not normally dissolve in a particular solution is able to dissolve with the use of a solubilizing agent.
Polysorbate 80 (E433) is also known as an emulsifier, which helps ingredients mix together and prevent separation, and water-containing small amounts of salts, and is included in several vaccines licensed in the USA.

Polysorbate 80 (E433) is a non-ionic detergent for solubilizing membrane proteins during the isolation of membrane-protein complexes, and is available with ultra-low concentrations of contaminating peroxides, aldehydes, salts, and carbonyl compounds.
Polysorbate 80 (E433) is also a polyethylene sorbitol ester, otherwise known aspolyoxyethylene sorbitan monooleate.
Polysorbate 80 (E433) has a molecular weight of 1.31 kDa and works well as a stabilizer and emulsifier, primarily in cosmetics, pharmaceuticals, and food products.
Polysorbate 80 (E433) is also miscible in water (0.1 ml/ml) and yields a clear, yellow solution.
Polysorbate 80 (E433) is also miscible with alcohol, dioxane, and ethyl acetate, and is practically insoluble in liquid paraffin and fixed oils.

Chemical Properties
Melting point: -25 °C
Boiling point: >100°C
Density: 1.08 g/mL at 20 °C
Vapor Pressure: Refractive index: n20/D 1.473
FEMA: 2917 | Polysorbate 80 (E433)
Fp: >230 °F
Storage Temp.: -20°C
Solubility: DMSO (Soluble), Methanol (Slightly)
Form: viscous liquid
Color: Amber
Specific Gravity: 1.080 (25/4℃)
PH Range: 6
Odor: mild alcoholic
PH: 5-7 (50g/l, H2O, 20℃)
Odor Type: alcoholic
Water Solubility: 5-10 g/100 mL at 23 ºC
Merck: 14,7582
Hydrophilic-Lipophilic Balance (HLB): 10
LogP: 4.392 (est)
EPA Substance Registry System: Polysorbate 80 (E433) (9005-65-6)

Chemical Properties
Polysorbate 80 (E433) is a polyethylene sorbitol ester, with a calculated molecular weight of 1,310 daltons, assuming 20 ethylene oxide units, sorbitol, and 1 oleic acid as the primary fatty acid.
Polysorbate 80 (E433) are a series of nonionic surfactants derived from sorbitan esters.
Polysorbate 80 (E433) soluble or dispersible in water but differ widely in organic and oil solubilities.
Polysorbate 80 (E433) has been widely used in biochemical applications including, solubilizing proteins, isolating nuclei from cells in culture,5 growing of tubercule bacilli,6 and emulsifying and dispersing substances in medicinal and food products.
Polysorbate 80 (E433) has little or no activity as an anti-bacterial agent1 except it has been shown to have an adverse effect on the antibacterial effect of methyl paraben and related compounds.
Polysorbate 80 (E433) have been reported to be incompatible with alkalis, heavy metal salts, phenols, and tannic acid.
Polysorbate 80 (E433) may reduce the activity of many preservatives.

Uses
Polysorbate 80 (E433) is a general purpose mid-range HLB, ethoxylated, nonionic surfactant suggested for use in textile chemicals (emulsifier, lubricant), household products and cosmetic formulations (o/w emulsifier, viscosity modifier).
Polysorbate 80 (E433) is used as an antistat for PVC and as an antifog for PP, PE, PVC, PS.
Polysorbate 80 (E433) is used as an emulsifier (ice cream, whipped topping) and as a solubilizing and dispersing agent in pickles and special vitamin-mineral preparations.
Polysorbate 80 (E433) is the trade name of a detergent that can be useful in identifying mycobacteria that possess a lipase that splits the compound into oleic acid and polyoxyethylated sorbitol.
Polysorbate 80 (E433) is used as an additive for cell culture media.
Polysorbate 80 (E433) has numerous effects, e.g. increasing the transformation frequency of Brevibacterium lactofermentum or enhancing the secretion of acid and alkaline phosphatase by Neurospora crassa.

Polysorbate 80 (E433) is derived from olive oil.
Polysorbate 80 (E433) is a non-toxic, nonionic surfactant/emulsifier and a water-soluble yellowish liquid used as a dispersing agent which allows oil and water to mix without the use of alcohol.
Polysorbate 80 (E433) a fragrance solubilizer and stabilizer, it lubricates and has a soothing effect on the skin.
Polysorbate 80 (E433) skin- safe ingredient is used extensively in oil-in-water emulsions (lotions, conditioners, cream rinses, shampoos, liquid soaps, body polishes or scrubs, etc.) and also for body mists and linen sprays.
Will be found as an ingredient in many body toiletries, cosmetics and wipes now in the market.

Polysorbate 80 (E433) is typically present in ice cream.
Polysorbate 80 (E433) is also widely utilized in biochemical applications, including:
Isolating nuclei from mammalian cell lines
Growing of tubercle bacilli
Selective protein extraction
Emulsifying and dispersing substances in medicinal and food products
As a hydrophilic emulsifier in the preparation of W1/O/W2 emulsion

Synonyms
Polysorbate 80 (E433)
6OZP39ZG8H
Monitan
Sorbimacrogol oleate 300
Armotan PMO-20
Atlox 1087
Capmul POE-O
Crillet 4
Drewmulse poe-smo
Durfax 80
Emsorb 6900
Ethoxylated sorbitan monooleate
MO 55F
Montanox 80
NCI-C60286
Polyethylene glycol 300 sorbitan monooleate
Polyethylene oxide sorbitan mono-oleate
Polyoxyethylene (5) sorbitan monooleate
Polyoxyethylene 20 sorbitan monooleate
Polyoxyethylene sorbitan oleate
Polysorban 80
Protasorb O-20
Romulgin O
SVO 9
Sorbon T 80
Sorlate
Atlox 8916TF
Avitears
CHEBI:53426
Cemerol T 80
Cemesol TW 1020
Crill 10
Crill 11
Crill S 10
Crillet 4 Super
Crillet 41
Disponil SMO 120
Eumulgin SMO 20
FEMA No. 2917
Flo Mo SMO 20
Glycol (Polysorbate 80 (E433))
Glycols, polyethylene, ether with sorbitan monooleate
Glycosperse O 20
Glycosperse O 5
Glycosperse O-20
Glycosperse O-20 VEG
Glycosperse O-20X
Hodag SVO 9
IV Solution Stabilizer
Myvatex MSPS
Nikkol TO
Nikkol TO 10
Nikkol TO 10M
Nissan Nonion OT 221
Nonion OT 221
Olothorb
PEG-3 Sorbitan oleate
Peg-20 sorbitan oleate
Polisorbac 60
Polyethylene glycol (3) sorbitan monooleate
Polyoxyethylene (20) sorbitan monooleate
Polyoxyethylene (3) sorbitan monooleate
Polysorbate 80 (E433) B.P.C.
Polysorbate 80 (E433) BPC
Polysorbate 80 (E433), USP
Sorbimacrogol oleate
Sorbitan, monooleate polyoxyethylene deriv.
Sorbitan, monooleate, polyoxyethylene derivs
T-Maz 80
TO 10
(X)-SORBITAN MONO-9-OCTADECENOATE POLY(OXY-1,2-ETHANEDIYL) DERIVS
(Z)-sorbitan mono-9-octadecenoate poly(oxy 1,2-ethanediyl) derivatives
80s, Polysorbate
ALKAMULS PSMO 20
Akamuls PSMO 20
Alkamuls T 80
Atlas E
Atolox 8916TF
CCRIS 700
Cremophor PS 80
Crillet 50
DTXSID0021175
Drewpone 80K
E-433
EC 500-019-9
EMULSON 10OM
ETHYLENE OXIDE-SORBITAN MONOOLEATE POLYMER
Ecoteric T 80
Emasol O 105R
Emrite 6120
Emulson 100M
Eumulgin SMO
GLYCOSPERSE 0-20
GLYCOSPERSE 0-20 VEG
GLYCOSPERSE 0-20X
HEXAETHYLENE GLYCOL SORBITAN MONOOLEATE
HSDB 4359
Hodag PSMO-20
INS NO.433
INS-433
IONET T 80
IONET T 80C
IV STABILIZER
LIPOSORB 0-20
Liposorb O-20
MF59 COMPONENT TWEEN 80
NIKKOL TO 106
POLYETHOXYLATED SORBITAN MONOOLEATE
POLYETHYLENE GLYCOL SORBITAN ETHER MONOOLEATE
POLYETHYLENE GLYCOL SORBITAN MONOOLEATE
POLYOXYETHYLATED SORBITAN MONOOLEATE
POLYOXYETHYLENE MONOSORBITAN MONOOLEATE
POLYOXYETHYLENE(20)SORBITAN MONO-OLEATE
POLYOXYETHYLENE(20)SORBITAN MONOOLEATE
POLYOXYETHYLENESORBITAN OLEATE
POLYSORBATA 80
Polysorbate 80 (E433) (EP MONOGRAPH)
Polysorbate 80 (E433) (II)
Polysorbate 80 (E433) (MART.)
Polysorbate 80 (E433) (USP-RS)
Polysorbate 80 (E433),U.S.P.
Peg sorbitan oleate
Poly(20)oxyethylene sorbitan monooleate
Polyethylene sorbitan monooleate
Polyoxyethylene 20 oleate
Polyoxyethylene(20) sorbitan monooleate
Polysorbate 80 (E433), U.S.P.
Polysorbate 80 (E433)s
Polysorbatum 80
RADIASURF 7157
RHEODOL SUPER TW-O 120
RHEODOL TW-O 106
RHEODOL TW-O 120
Ritabate 80
SETROLENE O
SILVAN T 80
SORBAX PMO-20
SORBIMACROGOL OLEATE 100
SORBITAL O 20
SORBITAN MONO-OLEATE POLYOXYETHYLENE
SORBITAN MONOLEATE
SORBITAN MONOOLEATE ETHYLENE OXIDE ADDUCT
SORBITAN MONOOLEATE POLYETHYLENE GLYCOL ETHER
SORBITAN MONOOLEATE POLYOXYETHYLENE ETHER
SORBITAN OLEATE-ETHYLENE OXIDE ADDUCT
SORBITAN, MONO-9-OCTADECENOATE, POLY(OXY-1,2-ETHANEDIYL) DERIVS., (Z)-
SORBITAN, MONOOLEATE, POLYOXYETHYLENE DERIVS.
SORETHYTAN (20) MONO-OLEATE
SORGEN TW 80
Sorbital 0 20
Sorbitan mono-9-octadecenoate poly(oxy-1,2-ethanediyl) derivatives
Sorbitan, mono-9-octadecenoate, poly(oxy-1,2-ethanediyl) derivs.
Sorethytan (20) monooleate
Sorethytan oleate
T 80C
T-MAZ 80K
TO 10M
TRIS(POLYOXYETHYLENE)SORBITAN MONOOLEATE
TWEEN 18:1C
TWEEN 80A
TWEEN-80
Tego SMO 80
Tego SMO 80V
Tween 80 A
UNII-2MSF640LWM
UNII-58O7V09UCI
UNII-6OZP39ZG8H
VALUE TN 80
WITCONOL 2722
polyoxyethylene-sorbitan-20 mono-oleate
sorbitan, mono-9-octadecenoate, poly(oxy-1,2-ethanediyl) derivs, (Z)-
POLYSORBATE 80 (E433)
DESCRIPTION:

Polysorbate 80 (E433) is one of the most common food additives.
Polysorbate 80 (E433) is a very effective emulsifier, and allows the stabilization of food products.
However, some harmful elements are contained in these components.


SYNONYMS OF 2-BUTYNE-1,4-DIOL:
E number: E433,Kolliphor PS 80[4] - Kolliphor is a registered trademark of BASF,Alkest TW 80,Scattics,Canarcel,Poegasorb 80,Montanox 80 – Montanox is a registered trademark of Seppic,Tween 80 – Tween is a registered trademark of Croda Americas, Inc.[5],Kotilen-80 - Kotilen is a registered trademark of Kolb AG


Polysorbate 80 (E433) is an additive used in the food industry to modify the texture of the product that contains it.
Its action is more precisely oriented towards the emulsification of two immiscible materials.
Polysorbate 80 (E433) then allows two materials, for example a lipid material and water, to form a single, very homogeneous body.

At the same time, Polysorbate 80 (E433) also helps prevent the formation of deposits.
Polysorbate 80 (E433) has a plant origin.
Polysorbate 80 (E433) is extracted by dehydration of sorbitol, a sugar alcohol present in fruits.

Polysorbate 80 (E433) is also the case for all additives included in the sorbate family, in particular polysorbate 20 , sorbitan monostearate or E491 .
Polysorbate 80 (E433) is usually found as an oily, slightly viscous liquid, lemon yellow in color with a characteristic odor.







USES OF POLYSORBATE 80 (E433):
Food:
Polysorbate 80 (E433) is used as an emulsifier in foods, though research[6] suggests it may "profoundly impact intestinal microbiota in a manner that promotes gut inflammation and associated disease states."
For example, in ice cream, polysorbate is added up to 0.5% (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.

Adding this substance prevents milk proteins from completely coating the fat droplets.
This allows them to join in chains and nets, which hold air in the mixture, and provide a firmer texture that holds its shape as the ice cream melts.

Health and beauty
Polysorbate 80 is also used as a surfactant in soaps and cosmetics (including eyedrops), or a solubilizer, such as in a mouthwash.
The cosmetic grade of polysorbate 80 may have more impurities than the food grade.


Medical:
Polysorbate 80 (E433) is a surfactant and solubilizer used in a variety of oral and topical pharmaceutical products.
Polysorbate 80 (E433) is an excipient that is used to stabilize aqueous formulations of medications for parenteral administration, and used as an emulsifier in the making of the antiarrhythmic amiodarone.

Polysorbate 80 (E433) is also used as an excipient in some European and Canadian influenza vaccines.
Influenza vaccines contain 2.5 μg of polysorbate 80 per dose.
Polysorbate 80 is found in many vaccines used in the United States,[11] including the Janssen COVID-19 vaccine.

Polysorbate 80 (E433) is used in the culture of Mycobacterium tuberculosis in Middlebrook 7H9 broth.
Polysorbate 80 (E433) is also used as an emulsifier in the estrogen-regulating drug Estrasorb.
Polysorbate 80 (E433) is also used in granulation for stabilization of drugs and excipients when IPA binding.


Laboratory:
Some mycobacteria contain a type of lipase (enzyme that breaks up lipid molecules); when these species are added to a mixture of polysorbate 80 and phenol red, they cause the solution to change color, so this is used as a test to identify the phenotype of a strain or isolate

On RODAC agar plates used in microbiological control, polysorbate 80 counteracts disinfectants often found on sampled surfaces, thereby allowing the microbes found on these surfaces to grow









Polysorbate 80 , known by the code number E433 , is a food additive from the emulsifier family.
Polysorbate 80 (E433) is an excipient of animal or plant origin, widely used in the food and pharmaceutical industries.


Polysorbate 80 (E433) is a nonionic surfactant and emulsifier often used in pharmaceuticals, foods, and cosmetics.
This synthetic compound is a viscous, water-soluble yellow liquid.

CHEMISTRY OF POLYSORBATE 80 (E433):
Polysorbate 80 (E433) is derived from polyethoxylated sorbitan and oleic acid.
The hydrophilic groups in this compound are polyethers also known as polyoxyethylene groups, which are polymers of ethylene oxide.
In the nomenclature of polysorbates, the numeric designation following polysorbate refers to the lipophilic group, in this case, the oleic acid (see polysorbate for more detail).

The full chemical names for polysorbate 80 are:
Polyoxyethylene (80) sorbitan monooleate
(x)-sorbitan mono-9-octadecenoate poly(oxy-1,2-ethanediyl)
The critical micelle concentration of polysorbate 80 in pure water is reported as 0.012 mM.[3]




CHARACTERISTICS OF POLYSORBATE 80 (E433)
Polysorbate 80 (E433) has the following characteristics:
Polysorbate 80 (E433) is soluble in water
Polysorbate 80 (E433) belongs to the polysorbate family and is classified among the texturing agents


Its use in organic food products is not authorized
Polysorbate 80 (E433) does not contain any allergens
Polysorbate 80 (E433) is considered to have moderate toxicity

The Acceptable Daily Intake (ADI) is set at 25 mg/kg/day
Polysorbate 80 (E433) is allowed in diets for diabetics
Polysorbate 80 (E433) can sometimes be found in special diets such as Halal and Kosher products and culinary preparations for vegetarians, vegans and vegans.


IN WHAT FOODS IS POLYSORBATE 80 FOUND?
Polysorbate 80 (E433) is found in the following types of foods:
• Flavored dairy products
• Coconut milk
• Broths and soups
• Wheat flour-based preparations such as biscuits and cakes
• The ICES
• Chewing gum
• Sauces for salads
• Certain fortified foods such as food supplements




Polysorbates are synthetic products made from sorbitol ( E420 ) in a three-step process.
Water is first removed from the sorbitol to form a sorbitan, which is then partially esterified with a natural fatty acid such as lauric (regarding E432), oleic (ecqc. E433), palmitic (ecqc . E434) or stearic (ecqc. E435, E436) — cf. E570 fatty acids .

Finally, ethylene oxide is added in the presence of a catalyst to give polysorbate [ 25,28 ].

Polysorbates E430 to E436 contain fatty acids almost always derived from vegetable oils, but the use of animal fats, particularly pork fats, is not excluded and remains at the discretion of the producer

Polysorbate 80, also called tween 80 or E433, is an additive made from sorbitol.
Acting as a texturing agent, polysorbate 80 is also a stabilizer, a synthetic thickener and an emulsifier.
In the form of a lemon yellow oily liquid, polysorbate 80 is present in many everyday products.

Indeed, polysorbate 80 composes several products including coconut milk, broths and soups, biscuits and cakes, chocolates and ice creams.
Furthermore, polysorbate 80 is also present in animal feed as well as pharmaceutical and cosmetic products.











BENEFITS OF POLYSORBATE 80 (E433):
You can find Polysorbate 80 (E433) in watery concoctions like room sprays, body sprays, and hand washes.
Polysorbate 80 (E433) is used to disperse oils evenly so they don’t separate in shampoos, conditioners, face washes, lipsticks, etc.
Polysorbate 80 (E433) is the reason behind the creaminess of your products.

Polysorbate 80 (E433) boosts rinse off and adds extra strength to your other surfactants.
Seldom it is used as a food additive in wines and ice-creams.

Polysorbate 80 (E433) is used in sauces to keep their texture smooth.
Polysorbate 80 (E433) is also used to improve the consistency of gel capsules and to make the pills disperse in the stomach.



Polysorbate 80 is a super emulsifier and stabilizer that mixes two or more not compatible ingredients not separate, usually oil and water.
Commonly used in food and cosmetics, also with a little application in medicines, vaccines and others.

Food:
Food grade Polysorbate 80 helps water-based liquids and oils-based ingredients mixed together easily. Its common food applications are in ice cream, pickles, vitamins and sauce.

Let’s see its various functions in food.
• Ice cream
• Provide a creamy texture
• Hold fat and water together (or maintain the shape) very well
• Prevent ice crystals formation
• Make ice cream resistant to melt
• Pickles
• As a solubilizer to disperse food flavors and colors.
• Vitamin supplements

As a solubilizing and dispersing agent in fat-soluble vitamins and vitamin-mineral preparations.
Butter sauce:
Polysorbate 80 produces the creamy sauce; enables butter and water not separate; makes the milk solids, salts, flavors, colors and other ingredients distributed evenly in the sauce.

Cosmetics:
Cosmetic grade polysorbate 80 functions as a denaturant, emulsifying, surfactant (5) in cosmetics and personal care products to help blend oil and water.
For the strong hydrophilicity, it can distribute colors (e.g. incorporate mica), fragrances, oils and other ingredients evenly in bath bombs, creams and soaps.

The following products may contain polysorbate 80:
• Bath bombs
• Shampoo
• Body butter
• Soap
• Pharmaceutical

EP/USP/NF grade polysorbate 80 can be used as an excipient that acts as an emulsifier, solubilizing agent or suspension stabilizer in various pharmaceutical formulations, such as in the dosage forms of solid, semi-solid and liquid. (6)

Others:
Polysorbate 80 can be used as an emulsifier and stabilizer in various vaccines (7), as a lubricant in eye drops. (8)


Approved uses:
Its application is listed together with other polysorbates: polysorbate 20 (E432), 40(E434), 60(E435), 65(E436), with the maximum usages 500-1000mg/kg.
Its usage is “quantum satis” in power or liquid food supplements (not for infants and young children).

The following food may contain it (11):
Flavoured fermented milk products
Milk and cream analogues
Fat emulsions for baking
Sugar confectionery
Chewing gum
Decorations, coatings and fillings
Fine bakery wares
Soups, sauces
Desserts



HOW POLYSORBATE 80 (E433) WORKS-
Polysorbate 80 (E433) works by breaking the water tension of the surface to allow the lifting of dirt and oil.
Polysorbate 80 (E433) acts as an emulsifier to improve the consistency of any product.
Polysorbate 80 (E433) acts as a solubilizer that blends all the ingredients.



CONCENTRATION AND SOLUBILITY OF POLYSORBATE 80 (E433):
As a food additive, Polysorbate 80 (E433) is added up to 0.5% concentration.
In bath and body products, the recommended concentration is up to 2%.
For other industrial purposes, the concentration can go up to 20%.
Polysorbate 80 (E433) is soluble in both water and oil.

HOW TO USE POLYSORBATE 80 (E433):
To the heated oil phase add our polysorbate 80.
Stir and dissolve Polysorbate 80 (E433) completely.
Once Polysorbate 80 (E433) cools down to room temperature add water.
Keep agitating constantly until an emulsion forms.


HOW IS POLYSORBATE 80 MADE?
Polysorbates (20,40, 60, 65, 80) are the ethoxylated sorbitan esters which are manufactured by the reaction among sorbitol, a specific fatty acid, and ethylene oxide (an average of 20 polymerized ethylene oxide per molecule of polysorbate 80).

The fatty acid used for the production of polysorbate 80 is oleic acid.
Let’s see its two raw materials.

Sorbitol :
It is a sugar alcohol produced by the reduction reaction (or hydrogenation) of glucose which is obtained from maize or tapioca starch.

Oleic Acid:
Oleic acid is a monounsaturated fatty acid naturally found in animal fats & oils and vegetable oils.
Commercial food grade oleic acid is not pure and is a mixture of several fatty acids.

Like other fatty acids, oleic acid also present in nature commonly in the form of triglycerides.
The following are the vegetable oils high with oleic acid (1):
• Olive oil (2)
• Pecan oil
• Canola oil
• Peanut oil
• Macadamia oil
• Sunflower oil
• Grape seed oil
• Sea buckthorn oil
• Sesame oil
• Poppyseed oil
• Manufacturing process

According to the FDA, there are generally two steps in the manufacturing process of polysorbate 80 (3):
Esterification between oleic acid and sorbitol to obtain sorbitan esters.
Condensation sorbitan esters with ethylene oxide.

Polysorbate 80 can also be produced by reacting sorbitol and ethylene oxide first then esterified with oleic acid, the following are the brief flow chart (4):
Obtaining the mixture of sorbitol and sorbitan by partially dehydrating sorbitol.
Adding ethylene oxide to the mixture to obtain sorbitan polyethylene ether.
Reacting it with oleic acid.




CHEMICAL AND PHYSICAL PROPERTIES OF 2-BUTYNE-1,4-DIOL
Chemical formula C64H124O26
Molar mass 1310 g/mol
Appearance Amber colored oil
Density 1.102 g/mL
Boiling point > 100°C
Solubility in water 100 mL/L[2]
Solubility in other solvents soluble in ethanol, cottonseed oil, corn oil, ethyl acetate, methanol, toluene
Viscosity 300–500 centistokes (@25°C)
Main function
Texturing Agent
Family
Polysorbates
Examples of job products
Flavored dairy products, coconut milk, ice cream, food supplements, chewing gum, pastries, broths and soups, sauces in particular
Properties
Appearance
A viscous, lemon to amber-colored oily liquid at 25°C.
Hydrophilic – Lipophilic Balance (HLB)
15, gives oil-in-water emulsions, O/W
Viscosity
Polysorbate 80 (E433) is also a viscosity agent with the viscosity 300–500 centistokes (@25°C).
Solubility
In Water
Polysorbate 80 (E433) is Soluble in water due to the long polyoxyethylene chains.
In Organic Solvents
Polysorbate 80 (E433) is Soluble in most solvents, such as ethanol, methanol, ethyl acetate and toluene.



SAFETY INFORMATION ABOUT POLYSORBATE 80 (E433)
First aid measures:
Description of first aid measures:
General advice:
Consult a physician.
Show this safety data sheet to the doctor in attendance.
Move out of dangerous area:

If inhaled:
If breathed in, move person into fresh air.
If not breathing, give artificial respiration.
Consult a physician.
In case of skin contact:
Take off contaminated clothing and shoes immediately.
Wash off with soap and plenty of water.
Consult a physician.

In case of eye contact:
Rinse thoroughly with plenty of water for at least 15 minutes and consult a physician.
Continue rinsing eyes during transport to hospital.

If swallowed:
Do NOT induce vomiting.
Never give anything by mouth to an unconscious person.
Rinse mouth with water.
Consult a physician.

Firefighting measures:
Extinguishing media:
Suitable extinguishing media:
Use water spray, alcohol-resistant foam, dry chemical or carbon dioxide.
Special hazards arising from the substance or mixture
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas

Advice for firefighters:
Wear self-contained breathing apparatus for firefighting if necessary.
Accidental release measures:
Personal precautions, protective equipment and emergency procedures
Use personal protective equipment.

Avoid breathing vapours, mist or gas.
Evacuate personnel to safe areas.

Environmental precautions:
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Methods and materials for containment and cleaning up:
Soak up with inert absorbent material and dispose of as hazardous waste.
Keep in suitable, closed containers for disposal.

Handling and storage:
Precautions for safe handling:
Avoid inhalation of vapour or mist.

Conditions for safe storage, including any incompatibilities:
Keep container tightly closed in a dry and well-ventilated place.
Containers which are opened must be carefully resealed and kept upright to prevent leakage.
Storage class (TRGS 510): 8A: Combustible, corrosive hazardous materials

Exposure controls/personal protection:
Control parameters:
Components with workplace control parameters
Contains no substances with occupational exposure limit values.
Exposure controls:
Appropriate engineering controls:
Handle in accordance with good industrial hygiene and safety practice.
Wash hands before breaks and at the end of workday.

Personal protective equipment:
Eye/face protection:
Tightly fitting safety goggles.
Faceshield (8-inch minimum).
Use equipment for eye protection tested and approved under appropriate government standards such as NIOSH (US) or EN 166(EU).

Skin protection:
Handle with gloves.
Gloves must be inspected prior to use.
Use proper glove
removal technique (without touching glove's outer surface) to avoid skin contact with this product.
Dispose of contaminated gloves after use in accordance with applicable laws and good laboratory practices.
Wash and dry hands.

Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
Splash contact
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
It should not be construed as offering an approval for any specific use scenario.

Body Protection:
Complete suit protecting against chemicals, The type of protective equipment must be selected according to the concentration and amount of the dangerous substance at the specific workplace.
Respiratory protection:
Where risk assessment shows air-purifying respirators are appropriate use a fullface respirator with multi-purpose combination (US) or type ABEK (EN 14387) respirator cartridges as a backup to engineering controls.

If the respirator is the sole means of protection, use a full-face supplied air respirator.
Use respirators and components tested and approved under appropriate government standards such as NIOSH (US) or CEN (EU).
Control of environmental exposure
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Stability and reactivity:
Chemical stability:
Stable under recommended storage conditions.
Incompatible materials:
Strong oxidizing agents:
Hazardous decomposition products:
Hazardous decomposition products formed under fire conditions.
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas.

Disposal considerations:
Waste treatment methods:
Product:
Offer surplus and non-recyclable solutions to a licensed disposal company.
Contact a licensed professional waste disposal service to dispose of this material.
Contaminated packaging:
Dispose of as unused product.


POLYSORBATE 80 (E433)
Polysorbate 80 (E433) is a nonionic surfactant based on natural raw material.
Polysorbate 80 (E433) is a viscous, lemon to amber-colored oily liquid at 25°C.


CAS Number: 9005-65-6
EC Number: 500-019-9
Chemical formula: C64H124O26
E number: E433 (thickeners, ...)



SYNONYMS:
Polyoxyethylene (20) sorbitan monooleate, Kolliphor PS 80, Montanox 80, Alkest TW 80, Tween 80, PS 80, Kotilen-80, Polyoxyethylene 20 sorbitane molooleate, Peg 3 Sorbitane Oleate, Inhibited Ethylene Glycol, Inhibited ethylene glycol, antifreeze, Polysorbate 80, E 433, Polyethoxylated Sorbitan Monooleate, Polyoxyethylene sorbitan monooleate (polysorbate 80), polyoxyethylene sorbitan monoleate, Sorbitan,mono-(9Z)-9-octadecenoate,poly(oxy-1,2-ethanediyl) derivs., Sorbitan,monooleate,polyoxyethylene derivs., Sorbitan,mono-9-octadecenoate,poly(oxy-1,2-ethanediyl) derivs.,(Z)-, Glycols,polyethylene,ether with sorbitan monooleate, Olothorb, Polyoxyethylene sorbitan monooleate, Polysorban 80, Sorlate, Tween 80A, Tween 81, Crillet 4, Hodag SVO 9, Polyethylene glycol sorbitan monooleate, Hexaethylene glycol sorbitan monooleate, Tris(polyoxyethylene)sorbitan monooleate, Polyoxyethylenesorbitan oleate, Ethoxylated sorbitan monooleate, Sorbimacrogol oleate, Polyoxyethylene monosorbitan monooleate, Polyoxyethylated sorbitan monooleate, Ethylene oxide-sorbitan monooleate polymer, Sorbital O 20, Crill 10, Crill 11, Crill S 10, Polysorbate 81, Emsorb 6900, Glycosperse O 20, Sorbon T 80, Durfax 80, SVO 9, Nikkol TO 10, Atlox 1087, Sorbitan monooleate polyethylene glycol ether, Romulgin O, Polyethylene glycol sorbitan ether monooleate, Atlox 8916TF, MO 55F, Polyethoxylated sorbitan monooleate, Setrolene O, Emulson 10OM, Nikkol TO 10M, Tween 18:1c, Nikkol TO 106, Sorbitan monooleate polyoxyethylene ether, Crillet 41, Rheodol TW-O 120, Ionet T 80, Value TN 80, Sorgen TW 80, Rheodol TW-O 106, Ionet T 80C, Sorbitan oleate-ethylene oxide adduct, Flo Mo SMO 20, Eumulgin SMO 20, Disponil SMO 120, PEG-20 Sorbitan Monooleate, Polysorbate 80, E433, PS80, Polyethylene sorbitan monooleate, Ethoxylated sorbitan monooleate, Polyoxyethylene sorbitan monooctadecenoate, Polysorban, Polyethylene glycol, sorbitan monooleate, CAS 9005-65-6, Tween 80, Polyoxyethylene [80] Sorbitan Monooleate, Glycosperse O 5, Alkamuls PSMO 20, Cemesol TW 1020, Nissan Nonion OT 221, TO 10M, Sorbitan monooleate ethylene oxide adduct, Witconol 2722, Rheodol Super TW-O 120, Cemerol T 80, Nonion OT 221, Crillet 4 Super, Silvan T 80, Radiasurf 7157, Myvatex MSPS, Polisorbac 60, T-MAZ 80, T-MAZ 80K, T 80C, Sorbimacrogol oleate 100, Sorbimacrogol oleate 300, Emasol O 105R, Rheodol TQ-O 106, Capmul POE-O, Sorbax PMO 20, Alkamuls T 80, T-MAZ 81, Ecoteric T 80, Montanox 81VG, TW-O 120, Montanox DF 80, Lamesorb SMO 20, POE sorbitan monooleate, Soporol 120, Nonio-light 0-30, Nonio-light SPO 1, Rheodol TW-O 120V, E 433, E 433 (polyglycol), PEO(20) sorbitan monooleate, Rheodol TW-O 106V, Ethylan GE 08, Canarcel TW 80, Ionet-T 80PA, Nikkol TO 10V, PEG sorbitan monooleat, PEG-20 Sorbitan Monooleate, Polysorbate 80, E433, PS80, Polyethylene sorbitan monooleate, Ethoxylated sorbitan monooleate, Polyoxyethylene sorbitan monooctadecenoate, Polysorban, Polyethylene glycol, sorbitan monooleate, Polyoxyethylene (80) sorbitan monooleate, Kolliphor PS 80, Montanox 80, Alkest TW 80, Tween 80, PS 80, Kotilen-80, Polysorbate 80, 6OZP39ZG8H, Monitan, Sorbimacrogol oleate 300, Armotan PMO-20, Atlox 1087, Capmul POE-O, Crillet 4, Drewmulse poe-smo, Durfax 80, Emsorb 6900, Ethoxylated sorbitan monooleate, MO 55F, Montanox 80, NCI-C60286, Polyethylene glycol 300 sorbitan monooleate, Polyethylene oxide sorbitan mono-oleate, Polyoxyethylene (5) sorbitan monooleate, Polyoxyethylene 20 sorbitan monooleate, Polyoxyethylene sorbitan oleate, Polysorban 80, Protasorb O-20, Romulgin O, SVO 9, Sorbon T 80, Sorlate, Atlox 8916TF, Avitears, CHEBI:53426, Cemerol T 80, Cemesol TW 1020, Crill 10, Crill 11, Crill S 10, Crillet 4 Super, Crillet 41, Disponil SMO 120, Eumulgin SMO 20, FEMA No. 2917, Flo Mo SMO 20, Glycol (Polysorbate 80), Glycols, polyethylene, ether with sorbitan monooleate, Glycosperse O 20, Glycosperse O 5, Glycosperse O-20, Glycosperse O-20 VEG, Glycosperse O-20X, Hodag SVO 9, IV Solution Stabilizer, Myvatex MSPS, Nikkol TO, Nikkol TO 10, Nikkol TO 10M, Nissan Nonion OT 221, Nonion OT 221, Olothorb, PEG-3 Sorbitan oleate, Peg-20 sorbitan oleate, Polisorbac 60, Polyethylene glycol (3) sorbitan monooleate, Polyoxyethylene (20) sorbitan monooleate, Polyoxyethylene (3) sorbitan monooleate, Polysorbate 80 B.P.C., Polysorbate 80 BPC, Polysorbate 80, USP, Sorbimacrogol oleate, Sorbitan, monooleate polyoxyethylene deriv., Sorbitan, monooleate, polyoxyethylene derives, T-Maz 80, TO 10, Tween 80, Polyoxyethylene [80] Sorbitan Monooleate, (X)-SORBITAN MONO-9-OCTADECENOATE POLY(OXY-1,2-ETHANEDIYL) DERIVS, (Z)-sorbitan mono-9-octadecenoate poly(oxy 1,2-ethanediyl) derivatives, 80s, Polysorbate, ALKAMULS PSMO 20, Akamuls PSMO 20, Alkamuls T 80, Atlas E, Atolox 8916TF, CCRIS 700, Cremophor PS 80, Crillet 50, DTXSID0021175, Drewpone 80K, E-433, EC 500-019-9, EMULSON 10OM, ETHYLENE OXIDE-SORBITAN MONOOLEATE POLYMER, Ecoteric T 80, Emasol O 105R, Emrite 6120, Emulson 100M, Eumulgin SMO, GLYCOSPERSE 0-20, GLYCOSPERSE 0-20 VEG, GLYCOSPERSE 0-20X, HEXAETHYLENE GLYCOL SORBITAN MONOOLEATE, HSDB 4359, Hodag PSMO-20, INS NO.433, INS-433, IONET T 80, IONET T 80C, IV STABILIZER, LIPOSORB 0-20, Liposorb O-20, MF59 COMPONENT TWEEN 80, NIKKOL TO 106, POLYETHOXYLATED SORBITAN MONOOLEATE, POLYETHYLENE GLYCOL SORBITAN ETHER MONOOLEATE, POLYETHYLENE GLYCOL SORBITAN MONOOLEATE, POLYOXYETHYLATED SORBITAN MONOOLEATE, POLYOXYETHYLENE MONOSORBITAN MONOOLEATE, POLYOXYETHYLENE(20)SORBITAN MONO-OLEATE, POLYOXYETHYLENE(20)SORBITAN MONOOLEATE, POLYOXYETHYLENESORBITAN OLEATE, POLYSORBATA 80, POLYSORBATE 80 (EP MONOGRAPH), POLYSORBATE 80 (II), POLYSORBATE 80 (MART.), POLYSORBATE 80 (USP-RS), POLYSORBATE 80,U.S.P., Peg sorbitan oleate, Poly(20)oxyethylene sorbitan monooleate, Polyethylene sorbitan monooleate, Polyoxyethylene 20 oleate, Polyoxyethylene(20) sorbitan monooleate, Polysorbate 80, U.S.P., Polysorbate 80s, Polysorbatum 80, RADIASURF 7157, RHEODOL SUPER TW-O 120, RHEODOL TW-O 106, RHEODOL TW-O 120, Ritabate 80, SETROLENE O, SILVAN T 80, SORBAX PMO-20, SORBIMACROGOL OLEATE 100, SORBITAL O 20, SORBITAN MONO-OLEATE POLYOXYETHYLENE, SORBITAN MONOLEATE, SORBITAN MONOOLEATE ETHYLENE OXIDE ADDUCT, SORBITAN MONOOLEATE POLYETHYLENE GLYCOL ETHER, SORBITAN MONOOLEATE POLYOXYETHYLENE ETHER, SORBITAN OLEATE-ETHYLENE OXIDE ADDUCT, SORBITAN, MONO-9-OCTADECENOATE, POLY(OXY-1,2-ETHANEDIYL) DERIVS., (Z)-, SORBITAN, MONOOLEATE, POLYOXYETHYLENE DERIVS., SORETHYTAN (20) MONO-OLEATE, SORGEN TW 80, Sorbital 0 20, Sorbitan mono-9-octadecenoate poly(oxy-1,2-ethanediyl) derivatives, Sorbitan, mono-9-octadecenoate, poly(oxy-1,2-ethanediyl) derivs., Sorethytan (20) monooleate, Sorethytan oleate, T 80C, T-MAZ 80K, TO 10M, TRIS(POLYOXYETHYLENE)SORBITAN MONOOLEATE, TWEEN 18:1C, TWEEN 80A, TWEEN-80, Tego SMO 80, Tego SMO 80V, Tween 80 A, UNII-2MSF640LWM, UNII-58O7V09UCI, UNII-6OZP39ZG8H, VALUE TN 80, WITCONOL 2722, polyoxyethylene-sorbitan-20 mono-oleate, sorbitan, mono-9-octadecenoate, poly(oxy-1,2-ethanediyl) derivs, (Z)-,



Polysorbate 80 (E433) is a nonionic surfactant and emulsifier often used in pharmaceuticals, foods, and cosmetics.
This synthetic compound, Polysorbate 80 (E433), is a viscous, water-soluble yellow liquid.
Polysorbate 80 (E433) is a nonionic surfactant based on natural raw material.


It is an ethoxylated sorbitan monooleate derivative called INCI Polysorbate 80 (E433).
Polysorbate 80 (E433) can be in liquid form or semi-liquid yellow to brown paste.
Solidification in the temperature range of Polysorbate 80 (E433) is 24-28°C.


Polysorbate 80 (E433) dissolves well in water, lower aliphatic alcohols and benzene.
Polysorbate 80 (E433) is a non-scheduled substance, according to the CLP/GHS regulation.
Polysorbate 80 (E433) is biodegradable in the natural environment.


Polysorbate 80 (E433) is a functional ingredient that is commonly used as an emulsifier in baked goods, dairy products, salad dressings, and other processed foods.
Polysorbate 80 (E433), also known as Tween 80, is a versatile and widely used emulsifier and surfactant.


Polysorbate 80 (E433) is a yellow to amber-colored powder that is soluble in water, alcohol, and vegetable oils, making it an excellent additive for a variety of products in numerous industries including the food, cosmetic, and pharmaceutical sectors.
Polysorbate 80 (E433) is extracted by chemical processes from the sweet-smelling fruits like apples, pears, peaches, and prunes, this surfactant is used in cosmetics, personal care, pharmaceutical, food, drug, textile, and metalworking industries.


Polysorbate 80 (E433) is a non-ionic surfactant and emulsifier find use in foods as emulsifier for salad dressings and chocolates, in cosmetics for preparing skin, facial cleansers and hair care products, and to disperse active ingredients in pharmaceuticals benefiting the pharmacological industry.
Polysorbate 80 (E433) being a nonionic surfactant is used in soaps and cosmetics (including eyedrops), or as solubilizer in mouthwashes.


Polysorbate 80 (E433) is an excipient that is used to stabilize aqueous formulations of medications for parenteral administration or vaccinations.
A solubilizing agent, Polysorbate 80 (E433), acts as a surfactant and increases the solubility of one agent in another.
Polysorbate 80 (E433) which would not normally dissolve in a particular solution is able to dissolve with the use of a solubilizing agent.


Polysorbate 80 (E433) is also known as an emulsifier, which helps ingredients mix together and prevent separation, and water-containing small amounts of salts, and is included in several vaccines licensed in the USA.
Polysorbate 80 (E433) is the most popular product in the polysorbate series.


Polysorbate 80 (E433) is the abbreviation of “polyoxyethylene (20) sorbitan monooleate”, is a nonionic surfactant and emulsifier commonly used in food (with the European food additive number E433) and cosmetics mainly due to its ability to mix water-based and oil-based ingredients well (with a high approximate HLB value 15).


Polysorbate 80 (E433) is an amber viscous liquid that is easily soluble in water, methanol, and ethanol, but insoluble in mineral oil.
The hydroxyl value is between 65 and 82, the saponification value is between 43 and 55, the acid value is less than or equal to 2, the moisture is less than or equal to 3, and the hydrophilic-lipophilic balance value is 15.
FDA Polysorbate 80 (E433) can be applied to various industries such as medicine, cosmetics, food, paint and pigment, textiles, and pesticides.


Polysorbate 80 (E433) is regarded as an emulsifier, dispersant, wetting agent, solubilizer and stabilizer.
Polysorbate 80 (E433) helps stabilise emulsions, improves product taste and appearance or overcomes raw material variations for an easier processing.
Polysorbate 80 (E433) is a versatile compound widely used in the food and pharmaceutical industries.


Polysorbate 80 (E433) belongs to the family of polysorbate surfactants.
This synthetic substance, Polysorbate 80 (E433), is derived from sorbitol, a sugar alcohol, and oleic acid, a fatty acid obtained from natural sources like olive oil.


The resulting compound Polysorbate 80 (E433), also known as Tween 80, exhibits exceptional emulsifying properties due to its unique chemical structure.
Polysorbate 80 (E433) is assigned the European food additive number E433.
The E numbers, or E additives, are codes for substances that are added to food for various purposes such as coloring, preservation, and emulsification.


In the case of Polysorbate 80 (E433), its E number, E433, reflects its role as an emulsifier and stabilizer in food products.
Polysorbate 80 (E433) is a viscous, lemon to amber-colored oily liquid at 25°C.
Polysorbate 80 (E433) is also a viscosity agent with the viscosity 300–500 centistokes (@25°C).


Polysorbate 80 (E433) is soluble in water due to the long polyoxyethylene chains.
Polysorbate 80 (E433) is a emulsifier with lower surface-active agent and with lowers surface tension between non mixable liquids.
The lower surface tension allows the two liquids to share a larger contact surface.


Polysorbate 80 (E433) is measured with HPLC-MS.
Polysorbate 80 (E433) also known as Tween 80.
Polysorbate 80 (E433) is an amber/golden-colored viscous liquid.


Polysorbate 80 (E433) is made from polyethoxylated sorbitan (chemical compounds derived from the dehydration of sugar alcohol) and oleic acid, a fatty acid found in animal and vegetable fats.
Polysorbate 80 (E433) is a colorless to yellow liquid used as an emulsifier in foods.


Polysorbate 80 (E433) is a nonionic surfactant and emulsifier often used in foods and cosmetics.
This synthetic compound, Polysorbate 80 (E433), is a viscous, water-soluble yellow liquid.
Polysorbate 80 (E433) is derived from polyethoxylated sorbitan and oleic acid.


Polysorbate 80 (E433) is composed of a hydrophilic (water-attracting) polyoxyethylene chain and a lipophilic (fat-attracting) sorbitan ester chain, The lipophilic section, derived from sorbitan and oleic acid, anchors the compound within fat-based substances.
This dual nature enables Polysorbate 80 (E433) to form micelles.


These micelles are small structures in which the hydrophobic tails cluster together while the hydrophilic heads extend outward.
This produces a stable emulsion.
This property is particularly useful in the manufacture of smooth and consistent textures in items like ice cream, salad dressings, and baked goods.



USES and APPLICATIONS of POLYSORBATE 80 (E433):
In terms of Polysorbate 80 (E433) uses, it has many applications in the modern world.
Polysorbate 80 (E433) in food is commonly regarded as an emulsifier and stabilizer in products such as salad dressings, ice cream, and baked goods.
Polysorbate 80 (E433) is extensively utilized as a solubilizer in the pharmaceutical industry to help improve the absorption and efficacy of certain drugs.


When Polysorbate 80 (E433) in skin care, it acts as an emulsifier and stabilizer, helping to create a smooth and even texture.
Dairy products: This food additive Polysorbate 80 (E433) is used in ice cream, whipped cream, and other dairy products to improve their stability and texture.


Beverages: Polysorbate 80 (E433) is used in a variety of beverages, including soft drinks, sports drinks, and fruit juices, to improve their texture and prevent separation of their ingredients.
Meat products: Polysorbate 80 (E433) in food is commonly used in processed meat products, such as sausages and deli meats, to improve their texture, prevent spoilage, and enhance their flavor.


Baked goods: Polysorbate 80 (E433) is added to cakes, cookies, and other baked goods to improve their texture, shelf life, and overall quality.
Polysorbate 80 (E433) is used cosmetics, agrochemicals, textile, mining industry, metalworking, and hydraulic fluids.
Polysorbate 80 (E433) is a hydrophilic nonionic surfactant.


Polysorbate 80 (E433), a substance formulated by the reaction of sorbitan fatty acid ester (a nonionic surfactant) with ethylene oxide, is used in many foreign countries, including the U.S. and the EU, where it acts as an emulsifier, a solubilizer in many foods, including bread, cake mix, salad dressing, shortening oil and chocolate.


Polysorbate 80 (E433) is utilized as a surfactant in soaps and cosmetics and also as a lubricant in eye drops.
In food or pharmaceutical products, Polysorbate 80 (E433) can act as an emulsifier.
The solubility of Polysorbate 80 (E433) allows it to assist in dissolving ingredients that would remain solid under normal circumstances.


In foods like ice cream, Polysorbate 80 (E433) is added up to 0.5% (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.
Vitamins, tablets, and supplements also contain Polysorbate 80 (E433) because of its preservative nature.


Polysorbate 80 (E433) is an amber/golden-colored water-soluble viscous liquid.
Polysorbate 80 (E433) is manufactured from polyethoxylated sorbitan (derived from the dehydration of sorbitol, a sugar alcohol) and oleic acid, a fatty acid found in animal and vegetable fats.


Due to this structure, Polysorbate 80 (E433) forms an approximate hydrophilic-lipophilic balance of 15.
The final products are free from genetically modified organisms and of vegetable origin.
Polysorbate 80 (E433) is a super emulsifier and stabilizer that mixes two or more not compatible ingredients not separate, usually oil and water.


Polysorbate 80 (E433) is commonly used in food and cosmetics, also with a little application in medicines, vaccines and others.
Polysorbate 80 (E433) is used as emulsifier and stabilizer in candy,ice cream,biscuits and other industry.
Polysorbate 80 (E433) is a functional ingredient that is commonly used as an emulsifier in baked goods, dairy products, salad dressings, and other processed foods.


Polysorbate 80 (E433), also known as Tween 80, is a versatile and widely used emulsifier and surfactant.
Polysorbate 80 (E433) is a yellow to amber-colored powder that is soluble in water, alcohol, and vegetable oils, making it an excellent additive for a variety of products in numerous industries including the food, cosmetic, and pharmaceutical sectors.


In terms of Polysorbate 80 (E433) uses, it has many applications in the modern world.
Polysorbate 80 (E433) in food is commonly regarded as an emulsifier and stabilizer in products such as salad dressings, ice cream, and baked goods.
Polysorbate 80 (E433) is extensively utilized as a solubilizer in the pharmaceutical industry to help improve the absorption and efficacy of certain drugs.


When Polysorbate 80 (E433) in skin care, it acts as an emulsifier and stabilizer, helping to create a smooth and even texture.
Polysorbate 80 (E433) is used in ice cream to make it smoother, easier to handle, and to increase its resistance to melting.
Polysorbate 80 (E433) is used to enable medications to pass through the blood brain barrier.


There some that question it's use as a food additive as when it is consumed in food it may allow toxic chemicals in the body to pass through the blood brain barrier.
Polysorbate 80 (E433) is a hydrophilic nonionic surfactant.


Polysorbate 80 (E433) is used as an emulsifier in foods (E number 433) such as ice cream, which makes the ice cream smoother and easier to handle, as well as increasing its resistance to melting.
Polysorbate 80 (E433) is also used as a surfactant in soaps and cosmetics (including eye drops), or a solubilizer such as in a mouthwash.


-Food uses of Polysorbate 80 (E433):
Polysorbate 80 (E433) helps water-based liquids and oils-based ingredients mixed together easily.
Polysorbate 80 (E433)'s common food applications are in ice cream, pickles, vitamins and sauce.


-Confectionery:
Polysorbate 80 (E433) is added to chocolate and other confectionery products to prevent them from blooming or becoming streaky.
Polysorbate 80 (E433) for sale also helps to improve the texture and appearance of these products.


-Food use of Polysorbate 80 (E433):
Polysorbate 80 (E433) is used as an emulsifier in foods.
For example, in ice cream, Polysorbate 80 (E433) is added up to 0.5 % (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.

Adding Polysorbate 80 (E433) prevents milk proteins from completely coating the fat droplets.
This allows them to join together in chains and nets, which hold air in the mixture, and provide a firmer texture that holds its shape as the ice cream melts.



FUNCTIONS OF POLYSORBATE 80 (E433):
In cosmetics and personal care products, Polysorbate 80 (E433) functions as a surfactant, emulsifier, and solubilizer.
Polysorbate 80 (E433) is a nonionic surfactant, which means it has a neutral charge.
A surfactant, or surface active agent, works by lowering the surface tension between two substances, such as two liquids or a liquid and a solid.

A surfactant molecule contains one end that is hydrophilic (attracted to water) and one end that is lipophilic (attracted to oil).
This allows surfactants to attract and suspends oils, dirt, and other impurities that have accumulated on the skin and wash them away.
Due to these properties, Polysorbate 80 (E433) can be found in many different cleansers and body washes.

Polysorbate 80 (E433) is also an emulsifier with an HLB value of 15.
HLB (Hydrophile-Lipophile Balance) is an empirical expression for the relationship of the hydrophilic and lipophilic groups of a surfactant.
An HLB of greater than 10 means that Polysorbate 80 (E433) is soluble in water.

As an emulsifier, Polysorbate 80 (E433) is often used in formulations that contain both water and oil components.
Mixing water and oil together creates a dispersion of oil droplets in water (and vice versa).

However, these two phases can separate if Polysorbate 80 (E433) is left to settle.
To address this problem, an emulsifier like Polysorbate 80 (E433) can be added to the system to help the droplets remain dispersed.
Emulsifiers improve the consistency of a product, which enables an even distribution of topical skin care benefits.

Polysorbate 80 (E433) also functions as a solubilizer with a wide range of hydrophilic characteristics.
Polysorbate 80 (E433) can be used individually, or in combination with a variety of other hydrophobic emulsifiers, to produce many different types of oil-in-water, and water-in-oil emulsion systems.

When used alone, Polysorbate 80 (E433) is an excellent solubilizer for essential oils and has good function as a wetting agent, viscosity modifier, anti-static agent, stabilizer, and dispersing agent.
Polysorbate 80 (E433) can also improve the rinse off of anhydrous scrubs and cleansing oils.



BENEFITS AND USES OF POLYSORBATE 80 (E433):
You can find Polysorbate 80 (E433) in watery concoctions like room sprays, body sprays, and hand washes.
Polysorbate 80 (E433) is used to disperse oils evenly so they don’t separate in shampoos, conditioners, face washes, lipsticks, etc.
Polysorbate 80 (E433) is the reason behind the creaminess of your products.

Polysorbate 80 (E433) boosts rinse off and adds extra strength to your other surfactants.
Seldom Polysorbate 80 (E433) is used as a food additive in wines and ice-creams.
Polysorbate 80 (E433) is used in sauces to keep their texture smooth.
Polysorbate 80 (E433) is also used to improve the consistency of gel capsules and to make the pills disperse in the stomach.



HOW POLYSORBATE 80 (E433) WORKS?
Polysorbate 80 (E433) works by breaking the water tension of the surface to allow the lifting of dirt and oil.
Polysorbate 80 (E433) acts as an emulsifier to improve the consistency of any product.
Polysorbate 80 (E433) acts as a solubilizer that blends all the ingredients.



CONCENTRATION AND SOLUBILITY OF POLYSORBATE 80 (E433):
As a food additive, Polysorbate 80 (E433) is added up to 0.5% concentration.
In bath and body products, the recommended concentration of Polysorbate 80 (E433) is up to 2%.
For other industrial purposes, the concentration of Polysorbate 80 (E433) can go up to 20%.
Polysorbate 80 (E433) is soluble in both water and oil.



HOW TO USE POLYSORBATE 80 (E433)?
To the heated oil phase add Polysorbate 80 (E433).
Stir and dissolve Polysorbate 80 (E433) completely.
Once Polysorbate 80 (E433) cools down to room temperature add water.
Keep agitating constantly until an emulsion forms.



PROPERTIES AND APPLICATIONS OF POLYSORBATE 80 (E433):
Product advantages:
*effective emulsifying properties,
*solubilization of fragrances and essential oils,
*prevents the emulsion stratification,
*dissolves well in water,
*anti-static,
*safe for the water environment,



CHEMISTRY OF POLYSORBATE 80 (E433):
Polysorbate 80 (E433) is derived from polyethoxylated sorbitan and oleic acid.
The hydrophilic groups in this compound are polyethers also known as polyoxyethylene groups, which are polymers of ethylene oxide.
In the nomenclature of polysorbates, the numeric designation following Polysorbate 80 (E433) refers to the lipophilic group, in this case, the oleic acid.

The full chemical names for polysorbate 80 are: Polyoxyethylene (80) sorbitan monooleate
(x)-sorbitan mono-9-octadecenoate poly(oxy-1,2-ethanediyl).
The critical micelle concentration of Polysorbate 80 (E433) in pure water is reported as 0.012 mM.



FUNCTIONS IN FOOD, POLYSORBATE 80 (E433):
*As emulsifier:
In the emulsification process, Polysorbate 80 (E433) aligns at the interface between water and oil phases.
The hydrophilic heads extend into the water, while the lipophilic tails immerse into the oil, creating micelles—tiny structures that encapsulate and disperse oil droplets within the water.

This arrangement prevents the oil droplets from coalescing and separating, resulting in a stable and homogenous emulsion.
Polysorbate 80 (E433) is a common ingredient in baked goods, salad dressings, and ice cream.
For example, Polysorbate 80 (E433) contributes to the smooth and creamy texture of ice cream, which enhances the desired mouthfeel.

A complex blend of water, fat, sugar, and other substances makes up ice cream.
These ingredients may have a tendency to separate in the absence of an emulsifier, giving the finished product an undesirable texture.

Particularly the fat and water components naturally oppose one another, which leads to the production of ice crystals and an unsatisfactory consistency.
Polysorbate 80 (E433) facilitates the coexistence of fat and water molecules by acting as a bridge.
As a result, the ice cream keeps Polysorbate 80 (E433)'s uniform composition.


*As anti-foaming agent:
Polysorbate 80 (E433)'s anti-foaming properties is helpful in the production of carbonated drinks and beer
One of Polysorbate 80 (E433)’s important properties is its capacity to lower surface tension, which aids in the destabilization of foam bubbles.

Surface tension is a liquid attribute caused by the cohesive interactions between molecules at the liquid’s surface.
Foam is a mixture of gas bubbles scattered throughout a liquid or solid.

Excessive foam can make industrial processes less effective.
For example, uncontrolled foam formation in the food and beverage industry can result in uneven mixing, erroneous measurements, and variations in the quality of the finished product.

This is particularly true during mixing, blending, and cooking. For example, during the manufacture of candies and aerated treats, foaming may lead to the formation of undesirable air pockets in the final product.
With the addition of Polysorbate 80 (E433), foaming is kept to a minimum during cooking, ensuring that confections set correctly.

Polysorbate 80 (E433)’s anti-foaming properties also find application in the beverage industry, particularly in the production of carbonated drinks and beer.
Excessive foam in these products can lead to inefficiencies in filling and packaging, as well as affect the sensory characteristics of the final beverage.


*As wetting agent:
Polysorbate 80 (E433) is not only as an effective anti-foaming agent, and emulsifier, but also as a wetting agent (or surfactant).
Wetting agents help overcome issues related to poor dispersion and solubility of certain components in food formulations.
With its capacity to enhance the wetting properties of specific ingredients, Polysorbate 80 (E433) facilitates their seamless incorporation into food products.

This property proves particularly beneficial in various applications, ranging from baked goods to sauces and dressings.
Flour, a fundamental ingredient in baking, tends to form clumps and resist hydration.
Incorporating Polysorbate 80 (E433) combats this issue by reducing the surface tension between flour particles and liquid components.

This results in improved dispersion, allowing for a smoother, lump-free batter or dough.
The even wetting of flour helps achieve a consistent texture and uniformity in the final baked product.

The versatility of Polysorbate 80 (E433) as a food additive makes it a preferred choice for manufacturers seeking multifunctional ingredients to streamline their processes.
Its nonionic nature allows Polysorbate 80 (E433) to interact effectively with a diverse array of ingredients without compromising the sensory attributes of the final product.



HOW IS POLYSORBATE 80 (E433) MADE?
Polysorbates (20,40, 60, 65, 80) are the ethoxylated sorbitan esters which are manufactured by the reaction among sorbitol, a specific fatty acid, and ethylene oxide (an average of 20 polymerized ethylene oxide per molecule of Polysorbate 80 (E433)).

The fatty acid used for the production of Polysorbate 80 (E433) is oleic acid.
Let’s see Polysorbate 80 (E433)'s two raw materials.

*Sorbitol:
It is a sugar alcohol produced by the reduction reaction (or hydrogenation) of glucose which is obtained from maize or tapioca starch.
Know more Sorbitol here.

*Oleic Acid:
Oleic acid is a monounsaturated fatty acid naturally found in animal fats & oils and vegetable oils.
Commercial food grade oleic acid is not pure and is a mixture of several fatty acids.

Like other fatty acids, oleic acid also present in nature commonly in the form of triglycerides.
The following are the vegetable oils high with oleic acid:
*Olive oil
*Pecan oil
*Canola oil
*Peanut oil
*Macadamia oil
*Sunflower oil
*Grape seed oil
*Sea buckthorn oil
*Sesame oil
*Poppyseed oil



MANUFACTURING PROCESS OF POLYSORBATE 80 (E433):
According to the FDA, there are generally two steps in the manufacturing process of Polysorbate 80 (E433):
Esterification between oleic acid and sorbitol to obtain sorbitan esters.

Condensation sorbitan esters with ethylene oxide.
Polysorbate 80 (E433) can also be produced by reacting sorbitol and ethylene oxide first then esterified with oleic acid, the following are the brief flow chart:

Obtaining the mixture of sorbitol and sorbitan by partially dehydrating sorbitol.
Adding ethylene oxide to the mixture to obtain sorbitan polyethylene ether.
Reacting Polysorbate 80 (E433) with oleic acid.



POLYSORBATE 80 (E433)'S VARIOUS FUNCTIONS IN FOOD:
*Ice cream
*Provide a creamy texture
*Hold fat and water together (or maintain the shape) very well
*Prevent ice crystals formation
*Make ice cream resistant to melt
*Pickles
*As a solubilizer to disperse food flavors and colors.

Vitamin supplements of Polysorbate 80 (E433): Polysorbate 80 (E433) is used as a solubilizing and dispersing agent in fat-soluble vitamins and vitamin-mineral preparations.

Butter sauce uses of Polysorbate 80 (E433): Polysorbate 80 (E433) produces the creamy sauce; enables butter and water not separate; makes the milk solids, salts, flavors, colors and other ingredients distributed evenly in the sauce.

Cosmetics uses of Polysorbate 80 (E433): Polysorbate 80 (E433) functions as a denaturant, emulsifying, surfactant in cosmetics and personal care products to help blend oil and water.

For the strong hydrophilicity, Polysorbate 80 (E433) can distribute colors (e.g. incorporate mica), fragrances, oils and other ingredients evenly in bath bombs, creams and soaps.

The following products may contain polysorbate 80:
*Bath bombs
*Shampoo
*Body butter
*Soap
*Pharmaceutical

Polysorbate 80 (E433) can be used as an excipient that acts as an emulsifier, solubilizing agent or suspension stabilizer in various pharmaceutical formulations, such as in the dosage forms of solid, semi-solid and liquid.
Others use of Polysorbate 80 (E433): Polysorbate 80 (E433) can be used as an emulsifier and stabilizer in various vaccines, as a lubricant in eye drops.



IS POLYSORBATE 80 (E433) SAFE TO EAT?
Yes, Polysorbate 80 (E433) has been approved as a safe ingredient by the U.S. Food and Drug Administration (FDA) and European Food Safety Authority (EFSA), as well as the Joint FAO/WHO Expert Committee on Food Additives (JECFA).


FDA:
Polysorbate 80 (E433) is a multifunctional ingredient that may be safely used in food as an emulsifier, defoamer, solubilizing and dispersing agent, surfactant, wetting agent and adjuvant.

The following food may contain it and with the maximum use levels:
*Ice cream 0.1%
*Yeast defoamer 4ppm
*Pickles and pickled products 500 ppm
*Vitamin preparations, the maximum intake of polysorbate 80 per day 175-475 milligrams
*Shortenings and edible oils 1% (with polysorbate 60 or not)
cottage cheese 0.008%
*Whipped edible oil topping 0.4% with/not sorbitan monostearate/polysorbate 60/polysorbate 65
*Gelatin desserts and mixes 0.082%
*Barbecue sauce 0.005%


EFSA:
Polyoxyethylene sorbitan monooleate (E433) is listed in Commission Regulation (EU) No 231/2012 as an authorised food additive and categorized in “Additives other than colours and sweeteners” (10).



IN ORGANIC SOLVENTS, POLYSORBATE 80 (E433):
Polysorbate 80 (E433) is soluble in most solvents, such as ethanol, methanol, ethyl acetate and toluene.



FUNCTIONS OF POLYSORBATE 80 (E433):
1. Binder / Stabilizer:
Polysorbate 80 (E433) retains the physical characteristics of food/cosmetics and ensure the mixture remains in an even state.
2. Emulsifier:
Polysorbate 80 (E433) allows water and oils to remain mixed together to form an emulsion.
3. Gelling Agent / Thickener:
Polysorbate 80 (E433) increases the viscosity by thickening the liquid to give it more texture.



HOW IS POLYSORBATE 80 (E433) MADE?
The synthesis of Polysorbate 80 (E433) is a meticulously controlled, multi-step process.
Polysorbate 80 (E433) begins with the esterification of sorbitol, a hexavalent sugar alcohol, using fatty acids derived mainly from natural oils such as olive oil.

Esterification, a chemical process involving the reaction between an organic acid (with a carboxyl group, -COOH) and an alcohol (with a hydroxyl group, -OH), leads to the formation of sorbitan esters in the initial chemical reaction.
The sorbitan esters go through ethoxylation, a key step involving the introduction of ethylene oxide under catalyst influence.

The addition of ethylene oxide imparts hydrophilic (water-attracting) properties to the molecule, making it more soluble in water.
Following this, purification steps employing distillation and filtration methods are implemented to remove any residual reactants and impurities.
This is a critical step as the presence of impurities can affect the properties and performance of the final product.

The final manufacturing stage involves neutralization to attain the desired pH level.
Polysorbate 80 (E433) is a nonionic surfactant, and its stability and effectiveness can be influenced by pH.
Neutralization helps to stabilize the molecule and ensures that Polysorbate 80 (E433) remains compatible with a wide range of other ingredients commonly used in various products, including pharmaceuticals, cosmetics, and food.



PHYSICAL and CHEMICAL PROPERTIES of POLYSORBATE 80 (E433):
Vapor Pressure: PH: pH of 5% aqueous solution between 6 and 8
Appearance Form: liquid
Color: yellow
Odor: No data available
Odor Threshold: No data available
pH: No data available
Melting point/freezing point: No data available
Initial boiling point and boiling range: No data available
Flash point: > 113 °C - closed cup
Evaporation rate: No data available
Flammability (solid, gas): No data available
Upper/lower flammability or explosive limits: No data available
Vapor pressure: < 1,33 hPa at 20 °C
Vapor density: No data available
Relative density: No data available

Water solubility: No data available
Partition coefficient: n-octanol/water: No data available
Autoignition temperature: No data available
Decomposition temperature: No data available
Viscosity
Viscosity, kinematic: No data available
Viscosity, dynamic: No data available
Explosive properties No data available
Oxidizing properties: No data available
Other safety information: No data available
Acid value: ≤2.0(mg KOH/g)
Saponification value: 45-55(mg KOH/g)
Hydroxyl value: 65~80(mg KOH/g)
Moisture: ≤3.0(w/%)
Residue on ignition: ≤0.25(w/%)

Oxyethylen: 65~69.5(w/%)
Color: Yellow to Amber
Content And Storage: Indoors +20°C
Density: 1.0800 g/mL
Molecular Formula: (C2H4O)x(C2H4O)z(C2H4O)y(C2H4O)wC24H44O6
MDL Number: MFCD00082107
Quantity: 10 L
Packaging Type: Plastic drum
InChI Key: HDTIFOGXOGLRCB-KTKRTIGZNA-N
SMILES: CCCCCCCC\C=C/CCCCCCCC(=O)OCCOCC(OCCO)C1OCC(OCCO)C1OCCO
IUPAC Name: 2-{2-[3,5-bis(2-hydroxyethoxy)oxolan-2-yl]-2-(2-hydroxyethoxy)ethoxy}ethyl (9E)-octadec-9-enoate
Molecular Weight (g/mol): 604.82
Solubility: Solubility in water: 100g/L.
Other solubilities: 100g/L isopropyl alcohol, 10g/L xylene,
insoluble in propylene glycol and mineral oil
Form: Viscous Liquid

Molecular Weight: 604.8
Molecular Formula: C32H60O10
Melting Point: -21°C
Flash Point: >110°C
Purity: 99%+
Density: 1.064
Appearance: Clear Colourless Oil
Storage: Room Temperature
Assay: 0.99
Refractive Index: 1.471-1.473
Stability: Stable under normal temperatures and pressures.
Viscosity: 300–500 centistokes (@25°C)
Formula: C64H124O26
Molar Mass: 1310 g/mol
Appearance: Powder
Monoglyceride Content: Minimum 40%
Water Content: Maximum 1.0%
Acid Value (mg KOH/g): Maximum 10.0
Saponification Value (mg/g): Range of 130-160

Molar mass: 1310 g/mol
Appearance: Amber colored liquid, Amber viscous grease
Density: 1.102 g/mL, oily liquid
Boiling point: > 100°C
Solubility in water: 100 mL/L
Solubility in other solvents:
soluble in ethanol
cottonseed oi, corn oil
ethyl acetate, methanol, toluene
Viscosity: 300–500 centistokes (@25°C)
Hydroxyl value: 65~82
Saponification number: 43~55
Acid value: ≤2
PSA: 133.14000
XLogP3: 4.46260
Appearance:: Polysorbate 80 is an amber-colored viscous liquid.
pH: (5% aqueous solution) 5-7.

Faint odor and bitter taste. (NTP, 1992)
Density: 1.06-1.10 g/cm3
Melting Point: -21ºC
Boiling Point: > 100ºC
Flash Point: >110ºC
Refractive Index: 1.471-1.473
Water Solubility: H2O: 5-10 g/100 mL at 23 ºC
Storage Conditions: Store at RT.
Chemical Formula: C64H124O26
Molar Mass: 1310 g/mol
Appearance: Amber-colored oil
Density: 1.102 g/mL
Boiling Point: > 100°C
Solubility in Water: 100 mL/L
Solubility in Other Solvents: It is soluble in ethanol,
cottonseed oil, corn oil, ethyl acetate, methanol, and toluene.



FIRST AID MEASURES of POLYSORBATE 80 (E433):
-Description of first-aid measures
*If inhaled
After inhalation:
Fresh air.
*In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with water/ shower.
*In case of eye contact:
After eye contact:
Rinse out with plenty of water.
Remove contact lenses.
*If swallowed:
After swallowing:
Make victim drink water (two glasses at most).
Consult doctor if feeling unwell.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of POLYSORBATE 80 (E433):
-Environmental precautions:
Do not let product enter drains.
-Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.
Observe possible material restrictions.
Take up with liquid-absorbent material.
Dispose of properly.



FIRE FIGHTING MEASURES of POLYSORBATE 80 (E433):
-Extinguishing media:
--Suitable extinguishing media:
Foam
Carbon dioxide (CO2)
Dry powder
--Unsuitable extinguishing media:
For this substance/mixture no limitations of extinguishing agents are given.
-Special hazards arising from the substance or mixture:
Nature of decomposition products not known.



EXPOSURE CONTROLS/PERSONAL PROTECTION of POLYSORBATE 80 (E433):
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection
Use safety glasses.
*Skin protection
Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0,4 mm
Break through time: 480 min
Splash contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 30 min
*Respiratory protection:
Not required.
-Control of environmental exposure:
Do not let product enter drains.



HANDLING and STORAGE of POLYSORBATE 80 (E433):
-Conditions for safe storage, including any incompatibilities:
Storage conditions
Tightly closed.
Store at room temperature.



STABILITY and REACTIVITY of POLYSORBATE 80 (E433):
-Chemical stability:
The product is chemically stable under standard ambient conditions (room temperature) .
-Incompatible materials:
No data available


POLYSORBATE 80 FOOD GRADE
Polysorbate 80 food grade also acts as a surfactant in soaps and cosmetics.
Polysorbate 80 food grade is a golden-coloured viscous liquid most generally used as as an emulsifier or surfactant.
Polysorbate 80 food grade is also used as a dispersing agent allowing oil and water to mix.

CAS Number: 9005-65-6
Molecular Formula: C24H44O6
Molecular Weight: 428.600006103516
EINECS Number: 500-019-9

Synonmys: 9005-65-6, 2-[2-[3,4-bis(2-hydroxyethoxy)oxolan-2-yl]-2-(2-hydroxyethoxy)ethoxy]ethyl octadec-9-enoate, DTXSID10864155, HDTIFOGXOGLRCB-UHFFFAOYSA-N, MFCD00082107, 2-{2-[3,4-Bis(2-hydroxyethoxy)tetrahydro-2-furanyl]-2-(2-hydroxyethoxy)ethoxy}ethyl 9-octadecenoate

Polysorbate 80 food grades are a class of emulsifiers used in pharmaceuticals and food preparation.
They are often used in cosmetics to solubilise essential oils and fragrance oils into water-based products.
Polysorbate 80 food grade is an amber/golden-colored viscous liquid used as as an emulsifier or surfactant in foods, medicines, skincare products, vaccines etc.

Great for oil based bath products, body preparations etc.
Polysorbate 80 food grade is often added to bath products to assist with the mixing of certain colours/micas into water.
Polysorbate 80 food grade is a nonionic surfactant and emulsifier derived from polyethoxylated sorbitan and oleic acid, and is often used in foods.

Polysorbate 80 food grade can be used as a foaming agent to make spumas or airs.
Polysorbate 80 food grade is also added as an emulsifier in foods, particularly in ice cream, where polysorbate is added to up to 0.5% concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.
Polysorbate 80 food grade prevents milk proteins from completely coating the fat droplets.

This allows them to join together in chains and nets, which hold air in the mixture, and provide a firmer texture that holds its shape as the ice cream melts.
Polysorbate 80 food grade is also extensively applied in pharmaceutical industry, where it can be found in some vaccines, vitamins and supplements.
Polysorbate 80 food grade is a nonionic surfactant and emulsifier often used in foods and cosmetics.

This synthetic compound is a viscous, water-soluble yellow liquid.
Polysorbate 80 food grades are a series of nonionic surfactants derived from sorbitan esters.
They are soluble or dispersible in water but differ widely in organic and oil solubilities.

Polysorbates have been reported to be incompatible with alkalis, heavy metal salts, phenols, and tannic acid.
They may reduce the activity of many preservatives.

Polysorbate 80 food grade, also known as Tween 80 or E433, is a nonionic surfactant commonly used as an emulsifier, stabilizer, and solubilizing agent in various pharmaceuticals, cosmetics, and food products.
Polysorbate 80 food grade is derived from polyethoxylated sorbitan and oleic acid.

Polysorbate 80 food grade is amphiphilic, meaning it has both hydrophilic (water-loving) and lipophilic (fat-loving) properties, which allows it to interact with both water and oil phases, facilitating the formation and stabilization of emulsions.
Polysorbate 80 food grade has a faint, characteristic odor and a warm, somewhat bitter taste.
Polysorbate 80 food grade is a mixture of oleate partial esters of sorbitol and sorbitol anhydrides condensed with approximately 20 mole of ethylene oxide (C2H4O) for each mole of sorbitol and its mono- and dianhydrides.

However, the main component of Polysorbate 80 food grade is polyoxyethylene-20-sorbitan monooleate, which is structurally similar to polyethylene glycols.
Polysorbate 80 food grade has a molecular weight of 1309.7 Da and a 1.064 g/ml density.
Polysorbate 80 food grade is used as emulsifiers, dissolving agents and stabilizer for essential oils, topical application and medical infusions including intravenous, subcutaneous or intramuscular administration.

In pharmaceuticals, Polysorbate 80 food grade is often used in formulations to improve the solubility and bioavailability of poorly soluble drugs.
Polysorbate 80 food grade can also serve as a dispersing agent in oral and topical medications, helping to ensure uniform distribution of active ingredients.
Polysorbate 80 food grade is commonly found in skincare products such as creams, lotions, and serums.

Polysorbate 80 food grade functions as an emulsifier, helping to blend water-based and oil-based ingredients together to create stable formulations with smooth textures.
Polysorbate 80 food grade is used as an emulsifier in a variety of products, including ice cream, salad dressings, and baked goods.
Polysorbate 80 food grade helps prevent the separation of ingredients, improves texture and mouthfeel, and enhances the overall stability of food products.

Polysorbate 80 food grade is rapidly removed from systemic circulation.
Polysorbate 80 food grade plasma concentration-time curve (AUC) in a patient administered an intravenous (IV) infusion of docetaxel 35 mg/m2 (polysorbate 80 1.75 g) showed a Polysorbate 80 food grade peak concentration of 304 μg/ml.

The AUC for Polysorbate 80 food grade was 321.7 mg h/ml, with a short disposition half-life of 1.07 h and a total plasma clearance of 5.44 l/h.
The distribution of polysorbate 80 at steady state was similar to the total blood volume (4.16 l), suggesting that polysorbate 80 circulates as large micelles and does not significantly distribute outside the central compartment.
In vitro studies suggest that Polysorbate 80 food grade is metabolized by rapid carboxylesterase-mediated hydrolysis.

Polysorbate 80 food grade is derived from polyethoxylated sorbitan and oleic acid.
The hydrophilic groups in Polysorbate 80 food grade are polyethers also known as polyoxyethylene groups, which are polymers of ethylene oxide.
In the nomenclature of polysorbates, the numeric designation following polysorbate refers to the lipophilic group, in this case, the oleic acid (see polysorbate for more detail).

Polysorbate 80 food grade sorbitan monooleate (x)-sorbitan mono-9-octadecenoate poly(oxy-1,2-ethanediyl) The critical micelle concentration of Polysorbate 80 food grade in pure water is reported as 0.012 mM.
Polysorbate 80 food grades are derived from ethoxylated sorbitan (a derivative of sorbitol) esterified with fatty acids and exist as oily liquids.
These Polysorbates belong to the class of emulsifiers used in pharmaceuticals and food preparations (salad dressing, ice cream, chocolates, baked goods and confectionery).

They are used in cosmetics to solubilize essential oils into water-based products, pharmaceuticals, detergents, paints, and plastic applications.
These Polysorbates surfactants consist primarily of oleic, stearic or lauric fatty acid esters with sorbitol-derived cyclic ethers (sorbitans and sorbides) and further polymerized with approximately 20 molecules of oxirane per molecule of Polysorbates.
The number following the 'polysorbates' part reflects the type of fatty acid connected with the polyoxyethylene sorbitan part of the molecule.

Monolaurate is indicated by 20, monopalmitate is indicated by 40, monostearate by 60, and monooleate by 80.
The number 20 following the 'polyoxyethylene' part refers to the total number of oxyethylene -(CH2CH2O)- groups found in the molecule.
Polysorbate 80 food grade is an amber/golden-colored water-soluble viscous liquid.

Polysorbate 80 food grade is manufactured from polyethoxylated sorbitan (derived from the dehydration of sorbitol, a sugar alcohol) and oleic acid, a fatty acid found in animal and vegetable fats.
Due to this structure, Polysorbate 80 food grade forms an approximate hydrophilic-lipophilic balance of 15.
The final products are free from genetically modified organisms and of vegetable origin.

Polysorbate 80 food grade is a non-ionic surfactant and emulsifier find use in foods as emulsifier for salad dressings and chocolates, in cosmetics for preparing skin, facial cleansers and hair care products, and to disperse active ingredients in pharmaceuticals benefiting the pharmacological industry.
The solubility of Polysorbate 80 food grade allows it to assist in dissolving ingredients that would remain solid under normal circumstances.
In foods like ice cream, Polysorbate 80 is added up to 0.5% (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.

Vitamins, tablets, and supplements also contain Polysorbate 80 food grade because of its preservative nature.
Polysorbate 80 food grade being a nonionic surfactant is used in soaps and cosmetics (including eyedrops), or as solubilizer in mouthwashes.
Polysorbate 80 food grade, or Tween 80, is the abbreviation of “polyoxyethylene (20) sorbitan monooleate”, is a nonionic surfactant and emulsifier commonly used in food (with the European food additive number E433) and cosmetics mainly due to its ability to mix water-based and oil-based ingredients well (with a high approximate HLB value 15).

Polysorbate 80 food grade is an amber viscous liquid that is easily soluble in water, methanol, and ethanol, but insoluble in mineral oil.
The hydroxyl value is between 65 and 82, the saponification value is between 43 and 55, the acid value is less than or equal to 2, the moisture is less than or equal to 3, and the hydrophilic-lipophilic balance value is 15.
Polysorbate 80 food grade is the most popular product in the polysorbate series.

Polysorbate 80 food grade can be applied to various industries such as medicine, cosmetics, food, paint and pigment, textiles, and pesticides.
Polysorbate 80 food grade is regarded as an emulsifier, dispersant, wetting agent, solubilizer and stabilizer.
Polysorbate 80 food grade is a nonionic surfactant and emulsifier often used in foods and cosmetics.

Polysorbate 80 food grade is a viscous, water-soluble yellow liquid.
Polysorbate 80 food grade commercially also known as Tween 80.
Polysorbate 80 food grade is the ethoxylated sorbitan esters which are manufactured by the reaction among sorbitol, a specific fatty acid, and ethylene oxide (an average of 20 polymerized ethylene oxide per molecule of polysorbate 80).

Polysorbate 80 food grade is a liquid substance, oily and slightly viscous.
The color of Polysorbate 80 food grade can be from light yellow to bright amber.
The smell is not strong, characteristic.

The main quality of Polysorbate 80 food grade is water solubility and solubility in vegetable and animal oils.
Polysorbate 80 food grade, one using area widely food emulsifier, named TW80 as well, yellow liquid, cas no. Is :9005-65-6, E code is E433, Slightly bitter, soluble in water, ethanol, ethyl acetate and toluene, insoluble in mineral oils and vegetable oils.
Polysorbate 80 food grade also dissolves well in isopropyl and ethyl alcohol, benzene.

Polysorbate 80 food grade does not dissolve in mineral oils.
Polysorbate 80 food grade has emulsifying, wetting and foaming properties.
Polysorbate 80 food grade is also a viscosity agent with the viscosity 300–500 centistokes (@25°C).

Polysorbate 80 food grade, one using area widely food emulsifier, named TW80 as well, yellow liquid, E code is E433, Slightly bitter, soluble in water, ethanol, ethyl acetate and toluene.
Soluble in water due to the long polyoxyethylene chains.
Soluble in most solvents, such as ethanol, methanol, ethyl acetate and toluene.

The critical micelle concentration of Polysorbate 80 food grade in pure water is reported as 0.012 mM.
The fatty acid used for the production of E433 - Polyoxyethylene sorbitan monooleate is oleic acid.
Polysorbate 80 food grade is a sugar alcohol produced by the reduction reaction (or hydrogenation) of glucose which is obtained from maize or tapioca starch.

According to the FDA, there are generally two steps in the manufacturing process of Polysorbate 80 food grade: Esterification between oleic acid and sorbitol to obtain sorbitan esters.
Condensation sorbitan esters with ethylene oxide.
Polysorbate 80 food grade is highly effective as an emulsifier, meaning it helps to disperse and stabilize immiscible liquids, such as oil and water, in various formulations.

This property is particularly valuable in the production of creams, lotions, and other cosmetic and pharmaceutical products where uniform dispersion of ingredients is essential.
In addition to its emulsifying properties, Polysorbate 80 food grade acts as a stabilizer, helping to prevent the separation of ingredients over time.
This contributes to the shelf stability of products and ensures that they maintain their desired consistency and texture throughout their intended shelf life.

Polysorbate 80 food grade is also used as a solubilizing agent, especially in pharmaceutical formulations.
Polysorbate 80 food grade can improve the solubility of hydrophobic (water-insoluble) compounds in aqueous solutions, making it easier to formulate drugs and enhancing their bioavailability.
In cosmetics, Polysorbate 80 food grade is valued for its ability to create smooth and creamy textures in products like moisturizers, sunscreens, and makeup.

Polysorbate 80 food grade is emulsifying and stabilizing properties contribute to the overall sensory experience of these products, making them easier to apply and more pleasant to use.
Polysorbate 80 food grade is approved for use as a food additive by regulatory agencies such as the U.S. Food and Drug Administration (FDA) and the European Food Safety Authority (EFSA).
Polysorbate 80 food grade is commonly used in the production of processed foods, including baked goods, sauces, and salad dressings, where it helps to improve texture, consistency, and mouthfeel.

While Polysorbate 80 food grade is generally regarded as safe for use in cosmetics and food products, some studies have raised concerns about its potential health effects in high concentrations or with prolonged exposure.
These concerns include possible irritation, allergic reactions, and effects on the gastrointestinal tract.
However, such effects are typically associated with high doses or specific individual sensitivities.

Polysorbate 80 food grade is regulated as a food additive and cosmetic ingredient by regulatory agencies worldwide.
Polysorbate 80 food grade must meet stringent safety and quality standards to be used in consumer products, and its concentrations are limited based on its intended application.
Polysorbate 80 food grade, commercially known as Polysorbate-80, is a viscous, water-soluble Yellow to amber liquid derived from polyethoxylated sorbitan and oleic acid.

Polysorbate 80 food grade is structurally similar to the (polyethylene) glycols and used both in injections (0.8-8.0%) and in oral suspension (0.375% w/v).
A number of anticancer drugs can be formulated by Polysorbate 80 food grade.
Typical examples include etoposide and minor groove-binding cyclopropylpyrroloindole analogues like carzelesin.

Polysorbate 80 food grade is a nonionic surfactant and emulsifier often used in pharmaceuticals, foods, and cosmetics.
This synthetic compound is a viscous, water-soluble yellow liquid.
Polysorbate 80 food grade, also known as PEG 80 and Polyoxyethylene Sorbitan Monooleate, is a polyoxyethylene derivative of sorbitan and olive oil in the form of oleic acid.

Polysorbate 80 food grade is an emulsifier derived from animal fatty acids, and natural oils and used as synthetic flavourings, surfactants, de foaming agents and dough conditioners.
Polysorbate 80 food grade may increase the absorption of fat-soluble substances.
Polysorbate 80 food grade is a synthetic surfactant composed of fatty acid esters of polyoxyethylene sorbitan.

Polysorbate 80 food grade is usually available as a chemically diverse mixture of different fatty acid esters, with the oleic acid comprising?>?58% of the mix.
Polysorbate 80 food grade has been widely used in biochemical applications including: solubilizing proteins, isolating nuclei from cells in culture,5 growing of tubercule bacilli,6 and emulsifying and dispersing substances in medicinal and food products.
Polysorbate 80 food grade has little or no activity as an anti-bacterial agent1 except it has been shown to have an adverse effect on the antibacterial effect of methyl paraben and related compounds.

Tween 80, commonly known as Polysorbate 80 food grade, is a synthetic compound that is widely applied in a variety of fields, including foods, medicines, and cosmetics.
Besides, Polysorbate 80 food grade commonly serve as a surfactant and solubilizer in the production of soaps and cosmetics, which is effective to help dissolve ingredients and make products look creamier and more attractive.
In laboratory, Polysorbate 80 food grade is occasionally used for a test to identify the phenotype of a strain or isolate, such as mycobacteria.

Polysorbate 80 food grade is a polyethylene sorbitol ester, with a calculated molecular weight of 1,310 daltons, assuming 20 ethylene oxide units, sorbitol, and 1 oleic acid as the primary fatty acid.
Polysorbate 80 food grade is an effective excipient to stabilize aqueous formulations of medications for parenteral administration and to improve the consistency of gel capsules, thus to make pills disperse in the stomach.
Polysorbate 80 food grade is commonly used as a defoamer for the fermenting process of some wines and as a emulsifier in ice-cream or “puddings” to keep the creamy texture without separating.

Melting point: -25 °C
Boiling point: >100°C
Density: 1.08 g/mL at 20 °C
vapor pressure: refractive index: n20/D 1.473
FEMA: 2917 | POLYSORBATE 80
Flash point: >230 °F
storage temp.: -20°C
solubility: DMSO (Soluble), Methanol (Slightly)
form: viscous liquid
color: Amber
Specific Gravity: 1.080 (25/4℃)
PH Range: 6
Odor: mild alcoholic
PH: 5-7 (50g/l, H2O, 20℃)
Odor Type: alcoholic
Water Solubility: 5-10 g/100 mL at 23 ºC
Merck: 14,7582
Hydrophilic-Lipophilic Balance (HLB): 10
LogP: 4.392 (est)
Substances Added to Food (formerly EAFUS): POLYSORBATE 80
EWG's Food Scores: 3-8

Polysorbate 80 food grade functions as a surfactant, emulsifier, solubilizer and dispersing agent.
Some of its applications as follows: Help wash away body dirt by lowering the surface tension on the skin when used in shampoos and body washes.
Polysorbate 80 food grade is safe to consume and has been approved as a safe ingredient by the U.S. Food and Drug Administration (FDA) and European Food Safety Authority (EFSA), as well as the Joint FAO/WHO Expert Committee on Food Additives (JECFA).

Polysorbate 80 food grade powder is a functional ingredient that is commonly used as an emulsifier in baked goods, dairy products, salad dressings, and other processed foods.
Polysorbate 80 food grade works by breaking the water tension of the surface to allow the lifting of dirt and oil.
Polysorbate 80 food grade acts as an emulsifier to improve the consistency of any product.

Polysorbate 80 food grade acts as a solubilizer that blends all the ingredients.
Polysorbate 80 food grade is a nonionic surfactant and emulsifier often used in foods and cosmetics.
This synthetic compound is a viscous, water-soluble yellow liquid.

Polysorbate 80 food grade is used to enable medications to pass through the blood brain barrier.
There some that question Polysorbate 80 food grade's use as a food additive as when it is consumed in food it may allow toxic chemicals in the body to pass through the blood brain barrier.
Polysorbate 80 food grade also known as Polysorbate 80, is a type of nonionic surfactant.

Polysorbate 80 food grade functions as an emulsifier, a dispersant, a wetting agent, a solubilizer, and a stabilizer in food, pharmaceutical, cosmetics, pigments, textiles, agrichemicals etc.
Like other polysorbates, Polysorbate 80 food grade can be used alone or used in combination with sorbitan ester 60, 65 or 80.
Polysorbate 80 food grade can also be produced by reacting sorbitol and ethylene oxide first then esterified with oleic acid;

Obtaining the mixture of sorbitol and sorbitan by partially dehydrating sorbitol.
Adding ethylene oxide to the mixture to obtain sorbitan polyethylene ether.
Polysorbate 80 food grade is a surfactant which can also reduce bacterial attachment and inhibit biofilm formation.

Polysorbate 80 food grades are stable to electrolyes and weak acids and bases; gradual saponification occurs with strong acids and bases.
Polysorbate 80 food grades are hygroscopic and should be examined for water content prior to use and dried if necessary.
Also, in common with other polyoxyethylene surfactants, prolonged storage can lead to the formation of peroxides.

E433 - Polyoxyethylene sorbitan monooleate, also known as PEG 80 and Polyoxyethylene Sorbitan Monooleate, is a polyoxyethylene derivative of sorbitan and olive oil in the form of oleic acid.
Polysorbate 80 food grade, (=Tween 80), also known as Polyoxyethylene Sorbitan Monooleate, is a nonionic emulsifier and surfactant and used in cosmetics and foods.
Some mycobacteria contain a type of lipase (enzyme that breaks up lipid molecules); when these species are added to a mixture of Polysorbate 80 food grade and phenol red, they cause the solution to change color, so this is used as a test to identify the phenotype of a strain or isolate.

Micelles combine with substances that needs to be solubilized, thereby enhance the solubilities of the substances such as active pharmaceutical ingredients.
To optimize solubilization, researchers have suggested to first combine Polysorbate 80 food grade with lipidsoluble pharmaceutical ingredients, then add water to further solubilize the mixture.
Synthetic food additive with emulsifying and flavoring role.

Polysorbate 80 food grade is also used as a solvent for other food additives.
Polysorbate 80 food grade is used in fine bakery products, sauces, desserts, confectioneries, fat emulsions for pastry, instant soups, ice, dietetic foods for body weight control.
Polysorbate 80 food grade is not recommended for vegetarians, because it can come from animal fats.

Polysorbate 80 food grade is a viscous, water-soluble yellow liquid.
The hydrophilic groups in Polysorbate 80 food grade are polyethers also known as polyoxyethylene groups which are polymers of ethylene oxide.
In the nomenclature of polysorbates, the numeric designation following polysorbate refers to the lipophilic group, in this case the oleic acid (see polysorbate for more detail).

Polysorbate 80 food grade, or Tween 80, is the abbreviation of “polyoxyethylene (20) sorbitan monooleate”, is a nonionic surfactant and emulsifier commonly used in food (with the European food additive number E433) and cosmetics mainly due to Polysorbate 80 food grade's ability to mix water-based and oil-based ingredients well (with a high approximate HLB value 15).
Polysorbates are derived from ethoxylated sorbitan (a derivative of sorbitol) esterified with fatty acids and exist as oily liquids.

These Polysorbates surfactants consist primarily of oleic, stearic or lauric fatty acid esters with sorbitol-derived cyclic ethers (sorbitans and sorbides) and further polymerized with approximately 20 molecules of oxirane per molecule of Polysorbates.
These Polysorbates belong to the class of emulsifiers used in pharmaceuticals and food preparations (salad dressing, ice cream, chocolates, baked goods and confectionery).
The number following the 'polysorbates' part reflects the type of fatty acid connected with the polyoxyethylene sorbitan part of the molecule.

Monolaurate is indicated by 20, monopalmitate is indicated by 40, monostearate by 60, and monooleate by 80.
The number 20 following the 'polyoxyethylene' part refers to the total number of oxyethylene -(CH2CH2O)- groups found in the molecule.
Polysorbate 80 food grade is an amber/golden-colored water-soluble viscous liquid.

Polysorbate 80 food grade is manufactured from polyethoxylated sorbitan (derived from the dehydration of sorbitol, a sugar alcohol) and oleic acid, a fatty acid found in animal and vegetable fats.
Due to this structure, Polysorbate 80 food grade forms an approximate hydrophilic-lipophilic balance of 15.
The final products are free from genetically modified organisms and of vegetable origin.

Taking into account the distinctive properties of the food stabilizer E433 - Polyoxyethylene sorbitan monooleate, Polysorbate 80 food grade belongs to the group of emulsifiers and stabilizers.
Polysorbate 80 food grade, also known as Polysorbate 80, consists of sorbitol, ethylene oxide, and oleic acid.
Polysorbate 80 food grade has a molecular formula of C64H124O26.

At room temperature, E433 - Polyoxyethylene sorbitan monooleate is in the form of pale-yellow to amber oily liquid.
Polysorbate 80 food grade is an O/W emulsifier with a polysorbate 80 HLB value of 15.0.
Polysorbate 80 food grade is soluble in water, ethanol, toluene etc.

Polysorbate 80 food grade - polysorbate, monooleate, nonionic surfactant.
Polysorbate 80 food grade is obtained from sorbitol and fatty acids olive oil chemically.
Polysorbate 80 food grade is an ethoxylated monoester of fatty acid anhydrohexavites.

Polysorbate 80 food grade refers to the type of fatty acid attached to the polyoxyethylene sorbitan part of the molecule, here E433 - Polyoxyethylene sorbitan monooleate is monooleate or oleic acid.
Oleic acid is a monounsaturated fatty acid naturally found in animal fats & oils and vegetable oils.
Commercial food grade oleic acid is not pure and is a mixture of several fatty acids.

Polysorbate 80 food grade heps distribute essential oils, fragrances and colorants evenly in water for Lotions, Creams, Hair products, Skin care products and Makeup products.
Polysorbate 80 food grade is derived from sorbitol, a natural sugar alcohol and forms a polysorbate-type nonionic surfactant by the ethoxylation of sorbitan (derived from the dehydration of sorbitol) before the addition of lauric acid.
Polysorbate 80 food grade is relatively nontoxic and stable therefore can be used as a emulsifier and detergent in a number of domestic, scientific, and pharmacological applications.

Polysorbate 80 food grade functions as a good wetting agent having food application in flavoured mouth drops, providing a spreading feeling to other added flavour ingredients.
In biochemical applications, Polysorbate 80 food grade finds use as washing agent in immunoassays, solubilizing agent for membrane proteins, and lysis solutions for mammalian cells.

While in the pharma sector, Polysorbate 80 food grade functions as an excipient helping to stabilize emulsions and suspensions.
The Cosmetics Ingredient Review (CIR) Expert Panel evaluated the scientific data and concluded that Polysorbate 80 food grade is safe for use in cosmetic formulations.

Uses:
Polysorbate 80 is used to help water and oils 'join' together. This is particularly helpful when using oils and non-water-soluble ingredients in products such as bath bombs.
Polysorbate 80 food grade is used as an emulsifier in foods, though research suggests it may "profoundly impact intestinal microbiota in a manner that promotes gut inflammation and associated disease states."
For example, in ice cream, polysorbate is added up to 0.5% (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.

Polysorbate 80 food grade is a synthetic multi-ingredient that can be used as a surfactant, emulsifier, solubilizer, stabilizer in food, cosmetics and personal care products.
Polysorbate 80 food grade helps water-based and oil-based ingredients blend easily and prevent their separation in food.
Polysorbate 80 food grade are mostly used in food among the category of Polysorbates, but the latter is used more than polysorbate 60 in food.

Polysorbate 80 food grade are the most commonly used in bakery food production.
They help to extend shelf life, improve the strength and increase volume of baked goods and frozen desserts.
Polysorbate 80 food grade is commonly used in cosmetics and personal care products such as lotions, creams, shampoos, and conditioners.

Polysorbate 80 food grade acts as an emulsifier, helping to blend oil and water-based ingredients to create stable formulations with smooth textures.
Additionally, Polysorbate 80 food grade can improve the solubility of certain ingredients and enhance the spreadability of products on the skin or hair.
In the pharmaceutical industry, Polysorbate 80 food grade serves multiple purposes.

Polysorbate 80 food grade is used as an emulsifier and solubilizing agent in oral and injectable medications to improve the bioavailability of poorly soluble drugs.
Polysorbate 80 food grade can also stabilize protein-based drugs and vaccines, helping to maintain their potency and efficacy during storage and administration.
Polysorbate 80 food grade is approved as a food additive by regulatory agencies such as the FDA and EFSA.

Polysorbate 80 food grade is used in various food and beverage products, including ice cream, salad dressings, sauces, and baked goods.
As an emulsifier, Polysorbate 80 food grade helps to create smooth textures, prevent ingredient separation, and enhance the stability of these products.
Polysorbate 80 food grade finds applications in biomedical research, particularly in cell culture and laboratory diagnostics.

Polysorbate 80 food grade is used in cell culture media to facilitate the solubility and uptake of hydrophobic compounds by cells.
Polysorbate 80 food grade can also serve as a dispersing agent in diagnostic assays and techniques.
Polysorbate 80 food grade has industrial applications in various sectors.

Polysorbate 80 food grade is used in the manufacturing of plastics, textiles, and lubricants, where its surfactant properties aid in processing and performance.
Polysorbate 80 food grade can also be found in household cleaning products, where it helps disperse oils and greases for effective cleaning.
Polysorbate 80 food grade is used in veterinary medicine for similar purposes as in human pharmaceuticals and cosmetics.

Polysorbate 80 food grade can be found in topical treatments, oral medications, and vaccines for animals to improve solubility, stability, and efficacy.
Polysorbate 80 food grade is also used as a surfactant in soaps and cosmetics (including eyedrops), or a solubilizer, such as in a mouthwash.
The cosmetic grade of polysorbate 80 may have more impurities than the food grade.

Polysorbate 80 food grade is a surfactant and solubilizer used in a variety of oral and topical pharmaceutical products.
Polysorbate 80 food grade is an excipient that is used to stabilize aqueous formulations of medications for parenteral administration, and used as an emulsifier in the making of the antiarrhythmic amiodarone.
Polysorbate 80 food grade is also used as an excipient in some European and Canadian influenza vaccines.

Influenza vaccines contain 2.5 μg of Polysorbate 80 food grade per dose.
Polysorbate 80 food grade is found in many vaccines used in the United States, including the Janssen COVID-19 vaccine.
Polysorbate 80 food grade is used in the culture of Mycobacterium tuberculosis in Middlebrook 7H9 broth.

Polysorbate 80 food grade is also used as an emulsifier in the estrogen-regulating drug Estrasorb.
Polysorbate 80 food grade is also used in granulation for stabilization of drugs and excipients when IPA binding.
Polysorbate 80 food grade used as emulsifier, stabiliser in a large range of foods including chewing gum, ice cream, soft drinks.

Also used in a wide range of detergents, pharmaceuticals and beauty and skin products.
Polysorbate 80 food grade is the reason behind the creaminess of your products.
Polysorbate 80 food grade boosts rinse off and adds extra strength to other surfactants.

Seldom Polysorbate 80 food grade is used as a food additive in wines and ice-creams.
Polysorbate 80 food grade is used in sauces to keep their texture smooth.
Polysorbate 80 food grade is also used to improve the consistency of gel capsules and to make the pills disperse in the stomach.

Polysorbate 80 food grade is used as an emulsifier in foods.
For example, in ice cream, polysorbate is added up to 0.5 % (v/v) concentration to make the ice cream smoother and easier to handle, as well as increasing its resistance to melting.
Adding Polysorbate 80 food grade prevents milk proteins from completely coating the fat droplets.

This allows them to join together in chains and nets, which hold air in the mixture, and provide a firmer texture that holds its shape as the ice cream melts.
Polysorbate 80 food grade is utilized in various topical formulations such as creams, ointments, and gels.
Polysorbate 80 food grade helps to evenly distribute active ingredients throughout the formulation, ensuring consistent application and absorption into the skin.

Polysorbate 80 food grade can also improve the texture and feel of topical products, making them more pleasant to use.
Polysorbate 80 food grade plays a critical role in the production of certain vaccines.
Polysorbate 80 food grade is used as a stabilizer to maintain the integrity of vaccine formulations during manufacturing, storage, and transportation.

Polysorbate 80 food grade helps prevent the aggregation of vaccine components and preserves their potency, ensuring that vaccines remain effective.
Polysorbate 80 food grade is included in some formulations of parenteral nutrition solutions, which are administered intravenously to patients who cannot consume nutrients orally.
As an emulsifier, Polysorbate 80 food grade helps to disperse lipid components in these solutions, allowing for the delivery of essential fats and nutrients to patients.

Polysorbate 80 food grade is sometimes used in the production of medical devices such as catheters and surgical instruments.
Polysorbate 80 food grade can be incorporated into lubricants and coatings to reduce friction and improve the performance of these devices during use.
Polysorbate 80 food grade's compatibility with various materials makes it a suitable additive for medical applications.

Similar to its use in human medicine, Polysorbate 80 food grade is employed in veterinary pharmaceuticals to enhance the solubility, stability, and bioavailability of active ingredients.
Polysorbate 80 food grade may be included in oral medications, topical treatments, and injectable formulations for animals, contributing to the effectiveness of veterinary therapies.
Polysorbate 80 food grade is commonly used in research laboratories and academic institutions for experimental purposes.

Polysorbate 80 food grade may be incorporated into experimental formulations to assess its effects on solubility, stability, and delivery of active compounds.
Researchers may also investigate novel applications of Polysorbate 80 in drug delivery systems and biomedical technologies.
In manufacturing processes across various industries, Polysorbate 80 food grade may be subject to stringent quality control measures to ensure its purity, stability, and consistency.

Quality control tests may include assessments of chemical composition, physical properties, and performance characteristics to meet regulatory standards and product specifications.
Adding Polysorbate 80 food grade prevents milk proteins from completely coating the fat droplets.
Polysorbate 80 food grade is a general purpose mid-range HLB, ethoxylated, nonionic surfactant suggested for use in textile chemicals (emulsifier, lubricant), household products and cosmetic formulations (o/w emulsifier, viscosity modifier).

Polysorbate 80 food grade is used as an emulsifier (ice cream, whipped topping) and as a solubilizing and dispersing agent in pickles and special vitamin-mineral preparations.
Polysorbate 80 food grade is the trade name of a detergent that can be useful in identifying mycobacteria that possess a lipase that splits the compound into oleic acid and polyoxyethylated sorbitol.
Polysorbate 80 food grade is used as an additive for cell culture media.

Polysorbate 80 food grade has numerous effects, e.g. increasing the transformation frequency of Brevibacterium lactofermentum or enhancing the secretion of acid and alkaline phosphatase by Neurospora crassa.
A polymer composed of PEG-ylated sorbitan, where the total number of poly(ethylene glycol) units is 20 (w + x + y + z = 20) and a single terminal is capped by an oleoyl group.

Safety Profile:
Experimental reproductive effects.
Questionable carcinogen with experimental tumorigenic data.
Human mutation data reported. An eye irritant.

When heated to decomposition it emits acrid smoke and irritating fumes.
In some individuals, Polysorbate 80 food grade may cause skin irritation or allergic reactions, particularly in those with sensitive skin or allergies to related compounds.
Symptoms of skin irritation may include redness, itching, or rash.

If irritation occurs, discontinuing use and seeking medical advice is recommended.
Contact with Polysorbate 80 food grade may cause irritation to the eyes.
If the substance comes into contact with the eyes, it should be flushed with water for several minutes while gently holding the eyelids open.

If irritation persists, medical attention may be necessary.
Moderately toxic by intravenous route.
Mildly toxic by ingestion.


POLYSORBATE 81
Sorbitan, tri-9-octadecenoate, poly(oxy-1,2-ethanediyl) derivs., (Z,Z,Z)-; Polyoxyethylene sorbitan trioleate; Tween 85 CAS NO:9005-70-3
POLYSORBATE 85
POLYSORBATE 85; N° CAS : 9005-70-3; Origine(s) : Synthétique; Nom INCI : POLYSORBATE 85. Classification : Composé éthoxylé, Tensioactif non ionique. Ses fonctions (INCI). Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile). Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : ETHOXYLATED ANHYDROSORBITOL TRIOLEATE; POLY(OXYETHYLENE) SORBITAN TRIOLEATE; SORBITAN, TRI-9-OCTADECENOATE, POLY(OXY-1,2-ETHANEDIYL) DERIVS., (Z,Z,Z)-; SORBITAN, TRIOLEATE, POLYOXYETHYLENE DERIVS.; Trioléate de polyoxyéthylène sorbitane; Trioléate de polyxyéthylène sorbitane. Noms anglais : Polyoxyethylene sorbitan trioleate. Utilisation et sources d'émission: Fabrication de produits pharmaceutiques, fabrication de cosmétiques. Emsorb 6903; Glycosperse TO-20; Liposorb TO-20; polyethyleneglycol sorbitan trioleate; Polyoxyethylene (20) sorbitan trioleate ; Polyoxyethylene sorbitan trioleate; Polysorbate 85 ; Protasorb TO-20; Sorbimacrogol trioleate 300; Sorbitan, tri-(9Z)-9-octadecenoate, poly(oxy-1,2-ethanediyl) derivs.; ; Sorbitan, tri-9-octadecenoate, poly(oxy-1,2-ethanediyl) derivs.; Sorbitan, trioleate polyoxyethylene deriv.; Tween 85; Polyethylene glycol sorbitan trioleate
POLYSORBATE-20
POE (20) sorbitan monostearate; Polysorbate 60; Polyoxyethylene Sorbitan Monostearate; cas no: 9005-67-8
POLYSORBATE-60
Polyoxyethylene Sorbitan Monooleate; POE (20) sorbitan monooleate; Polysorbate 80; cas no: 9005-65-6
POLYSORBATE-80
copolymer peg-140 hexamethylene diisocyanate C12-14 pareth-10; C16-18 pareth-11, and C18-20 pareth-11
POLYURETHANE-39
POLYVINYL ACETATE; N° CAS : 9003-20-7; Origine(s) : Synthétique; Nom INCI : POLYVINYL ACETATE. Nom chimique : Acetic acid ethenyl ester, homopolymer. Noms français : Acétate de polyvinyle; Polyacétate de vinyle; Polymère d'acétate de vinyle. Noms anglais : ACETIC ACID ETHENYL ESTER, HOMOPOLYMER; ACETIC ACID VINYL ESTER POLYMERS; ACETIC ACID VINYL ESTER, POLYMERS ACETIC ACID, VINYL ESTER, POLYMERS; POLY(VINYL ACETATE); Polyvinyl acetate; POLYVINYL ACETATE RESIN; VINYL ACETATE HOMOPOLYMER; VINYL ACETATE POLYMER; VINYL ACETATE RESIN. Utilisation et sources d'émission: Colle ou adhésif, fabrication de peinture latex. Ses fonctions (INCI). Antistatique : Réduit l'électricité statique en neutralisant la charge électrique sur une surface. Agent fixant : Permet la cohésion de différents ingrédients cosmétiques. Stabilisateur d'émulsion : Favorise le processus d'émulsification et améliore la stabilité et la durée de conservation de l'émulsion. Agent filmogène : Produit un film continu sur la peau, les cheveux ou les ongles
POLYURETHANE-39
INCI name: Polyurethane-39

DESCRIPTION:

POLYURETHANE-39 is a synthetic, aqueous solution of a polyurethane alkoylate polymer.
POLYURETHANE-39 is a colorless to slightly yellowish, clear to slightly opaque liquid with a characteristic low odor.
POLYURETHANE-39 is a pH insensitive non-ionic electrolyte tolerant polyurethane based associative rheology modifier for skin and sun care applications.


POLYURETHANE-39 is an associative thickening agent for skin, sun and hair care preparations that performs across a wide pH range (2-12).

Polyurethane-39 is a copolymer of PEG-140 and hexamethylene diisocyanate end-capped with C12-14 pareth-10, C16-18 pareth-11 and C18-20 pareth-11

Polyurethane-39 (/ˌpɒliˈjʊərəˌθeɪn, -jʊəˈrɛθeɪn/; often abbreviated PUR and PU) refers to a class of polymers composed of organic units joined by carbamate (urethane) links.
In contrast to other common polymers such as polyethylene and polystyrene, polyurethane is produced from a wide range of starting materials.

Polyurethane-39 variety produces polyurethanes with different chemical structures leading to many different applications.
These include rigid and flexible foams, varnishes and coatings, adhesives, electrical potting compounds, and fibers such as spandex and polyurethane laminate (PUL).

Foams are the largest application accounting for 67% of all polyurethane produced in 2016.

Polyurethane-39 is typically produced by reacting an isocyanate with a polyol.
Since polyurethane-39 contains two types of monomers, which polymerize one after the other, they are classed as alternating copolymers.
Both the isocyanates and polyols used to make a polyurethane-39 contain two or more functional groups per molecule.

Global production in 2019 was 25 million metric tonnes, accounting for about 6% of all polymers produced in that year.
Polyurethane-39 is a commodity plastic.



HISTORY OF POLYURETHANE-39:
Otto Bayer and his coworkers at IG Farben in Leverkusen, Germany, first made polyurethanes in 1937.
The new polymers had some advantages over existing plastics that were made by polymerizing olefins or by polycondensation, and were not covered by patents obtained by Wallace Carothers on polyesters.

Early work focused on the production of fibers and flexible foams and PUs were applied on a limited scale as aircraft coating during World War II.
Polyisocyanates became commercially available in 1952, and production of flexible polyurethane-39 foam began in 1954 by combining toluene diisocyanate (TDI) and polyester polyols.
These materials were also used to produce rigid foams, gum rubber, and elastomers.
Linear fibers were produced from hexamethylene diisocyanate (HDI) and 1,4-Butanediol (BDO).

DuPont introduced polyethers, specifically poly(tetramethylene ether) glycol, in 1956.
BASF and Dow Chemical introduced polyalkylene glycols in 1957.
Polyether polyols were cheaper, easier to handle and more water-resistant than polyester polyols.

Union Carbide and Mobay, a U.S. Monsanto/Bayer joint venture, also began making polyurethane-39 chemicals.
In 1960 more than 45,000 metric tons of flexible polyurethane-39 foams were produced.
The availability of chlorofluoroalkane blowing agents, inexpensive polyether polyols, and methylene diphenyl diisocyanate (MDI) allowed polyurethane-39 rigid foams to be used as high-performance insulation materials.

In 1967, urethane-modified polyisocyanurate rigid foams were introduced, offering even better thermal stability and flammability resistance.
During the 1960s, automotive interior safety components, such as instrument and door panels, were produced by back-filling thermoplastic skins with semi-rigid foam.

In 1969, Bayer exhibited an all-plastic car in Düsseldorf, Germany.
Parts of this car, such as the fascia and body panels, were manufactured using a new process called reaction injection molding (RIM), in which the reactants were mixed and then injected into a mold.
The addition of fillers, such as milled glass, mica, and processed mineral fibers, gave rise to reinforced RIM (RRIM), which provided improvements in flexural modulus (stiffness), reduction in coefficient of thermal expansion and better thermal stability.

This technology was used to make the first plastic-body automobile in the United States, the Pontiac Fiero, in 1983.
Further increases in stiffness were obtained by incorporating pre-placed glass mats into the RIM mold cavity, also known broadly as resin injection molding, or structural RIM.

Starting in the early 1980s, water-blown microcellular flexible foams were used to mold gaskets for automotive panels and air-filter seals, replacing PVC polymers.
Polyurethane-39 foams are used in many automotive applications including seating, head and arm rests, and headliners.

Polyurethane-39 foam (including foam rubber) is sometimes made using small amounts of blowing agents to give less dense foam, better cushioning/energy absorption or thermal insulation.

In the early 1990s, because of their impact on ozone depletion, the Montreal Protocol restricted the use of many chlorine-containing blowing agents, such as trichlorofluoromethane (CFC-11).
By the late 1990s, blowing agents such as carbon dioxide, pentane, 1,1,1,2-tetrafluoroethane (HFC-134a) and 1,1,1,3,3-pentafluoropropane (HFC-245fa) were widely used in North America and the EU, although chlorinated blowing agents remained in use in many developing countries.
Later, HFC-134a was also banned due to high ODP and GWP readings, and HFC - 141B was introduced in early 2000s as an alternate blowing agent in developing nations



CHEMISTRY OF POLYURETHANE-39:
Polyurethanes are produced by reacting diisocyanates with polyols,often in the presence of a catalyst, or upon exposure to ultraviolet light.

Common catalysts include tertiary amines, such as DABCO, or metallic soaps, such as dibutyltin dilaurate.
The stoichiometry of the starting materials must be carefully controlled as excess isocyanate can trimerise, leading to the formation of rigid polyisocyanurates.

The polymer usually has a highly crosslinked molecular structure, resulting in a thermosetting material which does not melt on heating; although some thermoplastic polyurethanes are also produced.

The most common application of polyurethane-39 is as solid foams, which requires the presence of a gas, or blowing agent, during the polymerization step.
This is commonly achieved by adding small amounts of water, which reacts with isocyanates to form CO2 gas and an amine, via an unstable carbamic acid group.
The amine produced can also react with isocyanates to form urea groups, and as such the polymer will contain both these and urethane linkers.
The urea is not very soluble in the reaction mixture and tends to form separate "hard segment" phases consisting mostly of polyurea.

The concentration and organization of these polyurea phases can have a significant impact on the properties of the foam.

The type of foam produced can be controlled by regulating the amount of blowing agent and also by the addition of various surfactants which change the rheology of the polymerising mixture.
Foams can be either "closed-cell", where most of the original bubbles or cells remain intact, or "open-cell", where the bubbles have broken but the edges of the bubbles are stiff enough to retain their shape, in extreme cases reticulated foams can be formed.

Open-cell foams feel soft and allow air to flow through, so they are comfortable when used in seat cushions or mattresses.

Closed-cell foams are used as rigid thermal insulation.
High-density microcellular foams can be formed without the addition of blowing agents by mechanically frothing the polyol prior to use.

These are tough elastomeric materials used in covering car steering wheels or shoe soles.

The properties of a polyurethane-39 are greatly influenced by the types of isocyanates and polyols used to make it.

Long, flexible segments, contributed by the polyol, give soft, elastic polymer.
High amounts of crosslinking give tough or rigid polymers.
Long chains and low crosslinking give a polymer that is very stretchy, short chains with many crosslinks produce a hard polymer while long chains and intermediate crosslinking give a polymer useful for making foam.
The choices available for the isocyanates and polyols, in addition to other additives and processing conditions allow polyurethanes to have the very wide range of properties that make them such widely used polymers.

RAW MATERIALS:
The main ingredients to make polyurethane-39 are di- and tri-isocyanates and polyols.
Other materials are added to aid processing the polymer or to modify the properties of the polymer. PU foam formulation sometimes have water added too.

Isocyanates:
Isocyanates used to make polyurethane-39 have two or more isocyanate groups on each molecule.
The most commonly used isocyanates are the aromatic diisocyanates, toluene diisocyanate (TDI) and methylene diphenyl diisocyanate, (MDI).
These aromatic isocyanates are more reactive than aliphatic isocyanates.

TDI and MDI are generally less expensive and more reactive than other isocyanates.
Industrial grade TDI and MDI are mixtures of isomers and MDI often contains polymeric materials. They are used to make flexible foam (for example slabstock foam for mattresses or molded foams for car seats),rigid foam (for example insulating foam in refrigerators) elastomers (shoe soles, for example), and so on.

The isocyanates may be modified by partially reacting them with polyols or introducing some other materials to reduce volatility (and hence toxicity) of the isocyanates, decrease their freezing points to make handling easier or to improve the properties of the final polymers.

MDI isomers and polymer
Aliphatic and cycloaliphatic isocyanates are used in smaller quantities, most often in coatings and other applications where color and transparency are important since polyurethanes made with aromatic isocyanates tend to darken on exposure to light.
The most important aliphatic and cycloaliphatic isocyanates are 1,6-hexamethylene diisocyanate (HDI), 1-isocyanato-3-isocyanatomethyl-3,5,5-trimethyl-cyclohexane (isophorone diisocyanate, IPDI), and 4,4′-diisocyanato dicyclohexylmethane (H12MDI or hydrogenated MDI).

Other more specialized isocyanates include Tetramethylxylylene diisocyanate (TMXDI).

Polyols:
Polyols are polymers in their own right and have on average two or more hydroxyl groups per molecule.
They can be converted to polyether polyols co-polymerizing ethylene oxide and propylene oxide with a suitable polyol precursor.

Polyester polyols are made by the polycondensation of multifunctional carboxylic acids and polyhydroxyl compounds.
They can be further classified according to their end use.
Higher molecular weight polyols (molecular weights from 2,000 to 10,000) are used to make more flexible polyurethanes while lower molecular weight polyols make more rigid products.

Polyols for flexible applications use low functionality initiators such as dipropylene glycol (f = 2), glycerine (f = 3), or a sorbitol/water solution (f = 2.75).

Polyols for rigid applications use high functionality initiators such as sucrose (f = 8), sorbitol (f = 6), toluenediamine (f = 4), and Mannich bases (f = 4).
Propylene oxide and/or ethylene oxide is added to the initiators until the desired molecular weight is achieved.
The order of addition and the amounts of each oxide affect many polyol properties, such as compatibility, water-solubility, and reactivity.

Polyols made with only propylene oxide are terminated with secondary hydroxyl groups and are less reactive than polyols capped with ethylene oxide, which contain primary hydroxyl groups. Incorporating carbon dioxide into the polyol structure is being researched by multiple companies.

Graft polyols (also called filled polyols or polymer polyols) contain finely dispersed styrene–acrylonitrile, acrylonitrile, or polyurea (PHD) polymer solids chemically grafted to a high molecular weight polyether backbone.

They are used to increase the load-bearing properties of low-density high-resiliency (HR) foam, as well as add toughness to microcellular foams and cast elastomers.

Initiators such as ethylenediamine and triethanolamine are used to make low molecular weight rigid foam polyols that have built-in catalytic activity due to the presence of nitrogen atoms in the backbone.
A special class of polyether polyols, poly(tetramethylene ether) glycols, which are made by polymerizing tetrahydrofuran, are used in high performance coating, wetting and elastomer applications.

Conventional polyester polyols are based on virgin raw materials and are manufactured by the direct polyesterification of high-purity diacids and glycols, such as adipic acid and 1,4-butanediol.
Polyester polyols are usually more expensive and more viscous than polyether polyols, but they make polyurethanes with better solvent, abrasion, and cut resistance.
Other polyester polyols are based on reclaimed raw materials.

They are manufactured by transesterification (glycolysis) of recycled poly(ethyleneterephthalate) (PET) or dimethylterephthalate (DMT) distillation bottoms with glycols such as diethylene glycol.
These low molecular weight, aromatic polyester polyols are used in rigid foam, and bring low cost and excellent flammability characteristics to polyisocyanurate (PIR) boardstock and polyurethane-39 spray foam insulation.

Specialty polyols include polycarbonate polyols, polycaprolactone polyols, polybutadiene polyols, and polysulfide polyols.
The materials are used in elastomer, sealant, and adhesive applications that require superior weatherability, and resistance to chemical and environmental attack.

Natural oil polyols derived from castor oil and other vegetable oils are used to make elastomers, flexible bunstock, and flexible molded foam.

Co-polymerizing chlorotrifluoroethylene or tetrafluoroethylene with vinyl ethers containing hydroxyalkyl vinyl ether produces fluorinated (FEVE) polyols.
Two-component fluorinated polyurethane-39 prepared by reacting FEVE fluorinated polyols with polyisocyanate have been used to make ambient cure paints and coatings.

Since fluorinated polyurethane-39 contain a high percentage of fluorine–carbon bonds, which are the strongest bonds among all chemical bonds, fluorinated polyurethane-39 exhibit resistance to UV, acids, alkali, salts, chemicals, solvents, weathering, corrosion, fungi and microbial attack.

These have been used for high performance coatings and paints.

Phosphorus-containing polyols are available that become chemically bonded to the polyurethane-39 matrix for the use as flame retardants.

Bio-derived materials:
Interest in sustainable "green" products raised interest in polyols derived from vegetable oils.

Various oils used in the preparation polyols for polyurethanes include soybean, cotton seed, neem seed, and castor.
Vegetable oils are functionalized by various ways and modified to polyetheramide, polyethers, alkyds, etc.
Renewable sources used to prepare polyols may be dimer fatty acids or fatty acids.

Some biobased and isocyanate-free polyurethanes exploit the reaction between polyamines and cyclic carbonates to produce polyhydroxurethanes.

Chain extenders and cross linkers:
Chain extenders (f = 2) and cross linkers (f ≥ 3) are low molecular weight hydroxyl and amine terminated compounds that play an important role in the polymer morphology of polyurethane-39 fibers, elastomers, adhesives, and certain integral skin and microcellular foams.
The elastomeric properties of these materials are derived from the phase separation of the hard and soft copolymer segments of the polymer, such that the urethane hard segment domains serve as cross-links between the amorphous polyether (or polyester) soft segment domains.

This phase separation occurs because the mainly nonpolar, low melting soft segments are incompatible with the polar, high melting hard segments.
The soft segments, which are formed from high molecular weight polyols, are mobile and are normally present in coiled formation, while the hard segments, which are formed from the isocyanate and chain extenders, are stiff and immobile.
Because the hard segments are covalently coupled to the soft segments, they inhibit plastic flow of the polymer chains, thus creating elastomeric resiliency.

Upon mechanical deformation, a portion of the soft segments are stressed by uncoiling, and the hard segments become aligned in the stress direction.
This reorientation of the hard segments and consequent powerful hydrogen bonding contributes to high tensile strength, elongation, and tear resistance values.
The choice of chain extender also determines flexural, heat, and chemical resistance properties.

The most important chain extenders are ethylene glycol, 1,4-butanediol (1,4-BDO or BDO), 1,6-hexanediol, cyclohexane dimethanol and hydroquinone bis(2-hydroxyethyl) ether (HQEE).

All of these glycols form polyurethanes that phase separate well and form well defined hard segment domains, and are melt processable.
They are all suitable for thermoplastic polyurethanes with the exception of ethylene glycol, since its derived bis-phenyl urethane undergoes unfavorable degradation at high hard segment levels.

Diethanolamine and triethanolamine are used in flex molded foams to build firmness and add catalytic activity.
Diethyltoluenediamine is used extensively in RIM, and in polyurethane-39 and polyurea elastomer formulations.

Polyurethane-39 catalysts can be classified into two broad categories, basic and acidic amine.
Tertiary amine catalysts function by enhancing the nucleophilicity of the diol component.

Alkyl tin carboxylates, oxides and mercaptides oxides function as mild Lewis acids in accelerating the formation of polyurethane-39.
As bases, traditional amine catalysts include triethylenediamine (TEDA, also called DABCO, 1,4-diazabicyclo[2.2.2]octane), dimethylcyclohexylamine (DMCHA), dimethylethanolamine (DMEA), and bis-(2-dimethylaminoethyl)ether, a blowing catalyst also called A-99.
A typical Lewis acidic catalyst is dibutyltin dilaurate.
The process is highly sensitive to the nature of the catalyst and is also known to be autocatalytic.

Factors affecting catalyst selection include balancing three reactions: urethane (polyol+isocyanate, or gel) formation, the urea (water+isocyanate, or "blow") formation, or the isocyanate trimerization reaction (e.g., using potassium acetate, to form isocyanurate rings).
A variety of specialized catalysts have been developed.

Surfactants:
Surfactants are used to modify the characteristics of both foam and non-foam polyurethane-39 polymers.
They take the form of polydimethylsiloxane-polyoxyalkylene block copolymers, silicone oils, nonylphenol ethoxylates, and other organic compounds.

In foams, they are used to emulsify the liquid components, regulate cell size, and stabilize the cell structure to prevent collapse and sub-surface voids.
In non-foam applications they are used as air release and antifoaming agents, as wetting agents, and are used to eliminate surface defects such as pin holes, orange peel, and sink marks.

PRODUCTION OF POLYURETHANE-39:
Polyurethanes are produced by mixing two or more liquid streams.
The polyol stream contains catalysts, surfactants, blowing agents (when making polyurethane-39 foam insulation) and so on.
The two components are referred to as a polyurethane-39 system, or simply a system.

The isocyanate is commonly referred to in North America as the 'A-side' or just the 'iso'.
The blend of polyols and other additives is commonly referred to as the 'B-side' or as the 'poly'.
This mixture might also be called a 'resin' or 'resin blend'.

In Europe the meanings for 'A-side' and 'B-side' are reversed.

Resin blend additives may include chain extenders, cross linkers, surfactants, flame retardants, blowing agents, pigments, and fillers.
Polyurethane-39 can be made in a variety of densities and hardnesses by varying the isocyanate, polyol or additives.

Health and safety:
Fully reacted polyurethane-39 polymer is chemically inert.
No exposure limits have been established in the U.S. by OSHA (Occupational Safety and Health Administration) or ACGIH (American Conference of Governmental Industrial Hygienists).
It is not regulated by OSHA for carcinogenicity.

Polyurethanes are combustible.
Decomposition from fire can produce significant amounts of carbon monoxide and hydrogen cyanide, in addition to nitrogen oxides, isocyanates, and other toxic products.
Because of the flammability of the material, it has to be treated with flame retardants (at least in case of furniture), almost all of which are considered harmful.


California later issued Technical Bulletin 117 2013 which allowed most polyurethane-39 foam to pass flammability tests without the use of flame retardants.
Green Science Policy Institute states: "Although the new standard can be met without flame retardants, it does NOT ban their use.
Consumers who wish to reduce household exposure to flame retardants can look for a TB117-2013 tag on furniture, and verify with retailers that products do not contain flame retardants."


Liquid resin blends and isocyanates may contain hazardous or regulated components.
Isocyanates are known skin and respiratory sensitizers.
Additionally, amines, glycols, and phosphate present in spray polyurethane-39 foams present risks.

Exposure to chemicals that may be emitted during or after application of polyurethane-39 spray foam (such as isocyanates) are harmful to human health and therefore special precautions are required during and after this process.

In the United States, additional health and safety information can be found through organizations such as the Polyurethane Manufacturers Association (PMA) and the Center for the Polyurethanes Industry (CPI), as well as from polyurethane-39 system and raw material manufacturers.

Regulatory information can be found in the Code of Federal Regulations Title 21 (Food and Drugs) and Title 40 (Protection of the Environment).
In Europe, health and safety information is available from ISOPA, the European Diisocyanate and Polyol Producers Association.

Manufacturing:
The methods of manufacturing polyurethane-39 finished goods range from small, hand pour piece-part operations to large, high-volume bunstock and boardstock production lines.

Regardless of the end-product, the manufacturing principle is the same: to meter the liquid isocyanate and resin blend at a specified stoichiometric ratio, mix them together until a homogeneous blend is obtained, dispense the reacting liquid into a mold or on to a surface, wait until it cures, then demold the finished part.

Dispensing equipment:
Although the capital outlay can be high, it is desirable to use a meter-mix or dispense unit for even low-volume production operations that require a steady output of finished parts.
Dispense equipment consists of material holding (day) tanks, metering pumps, a mix head, and a control unit.
Often, a conditioning or heater–chiller unit is added to control material temperature in order to improve mix efficiency, cure rate, and to reduce process variability.
Choice of dispense equipment components depends on shot size, throughput, material characteristics such as viscosity and filler content, and process control.


Material day tanks may be single to hundreds of gallons in size and may be supplied directly from drums, IBCs (intermediate bulk containers, such as totes), or bulk storage tanks.
They may incorporate level sensors, conditioning jackets, and mixers.
Pumps can be sized to meter in single grams per second up to hundreds of pounds per minute.
They can be rotary, gear, or piston pumps, or can be specially hardened lance pumps to meter liquids containing highly abrasive fillers such as chopped or hammer-milled glass fiber and wollastonite

The pumps can drive low-pressure (10 to 30 bar, 1 to 3 MPa) or high-pressure (125 to 250 bar, 12.5 to 25.0 MPa) dispense systems.
Mix heads can be simple static mix tubes, rotary-element mixers, low-pressure dynamic mixers, or high-pressure hydraulically actuated direct impingement mixers.

Control units may have basic on/off and dispense/stop switches, and analogue pressure and temperature gauges, or may be computer-controlled with flow meters to electronically calibrate mix ratio, digital temperature and level sensors, and a full suite of statistical process control software.
Add-ons to dispense equipment include nucleation or gas injection units, and third or fourth stream capability for adding pigments or metering in supplemental additive packages.


Tooling:
Distinct from pour-in-place, bun and boardstock, and coating applications, the production of piece parts requires tooling to contain and form the reacting liquid.
The choice of mold-making material is dependent on the expected number of uses to end-of-life (EOL), molding pressure, flexibility, and heat transfer characteristics.

RTV silicone is used for tooling that has an EOL in the thousands of parts.
It is typically used for molding rigid foam parts, where the ability to stretch and peel the mold around undercuts is needed.
The heat transfer characteristic of RTV silicone tooling is poor.
High-performance, flexible polyurethane-39 elastomers are also used in this way.


Epoxy, metal-filled epoxy, and metal-coated epoxy is used for tooling that has an EOL in the tens of thousands of parts.
It is typically used for molding flexible foam cushions and seating, integral skin and microcellular foam padding, and shallow-draft RIM bezels and fascia.
The heat transfer characteristic of epoxy tooling is fair; the heat transfer characteristic of metal-filled and metal-coated epoxy is good.
Copper tubing can be incorporated into the body of the tool, allowing hot water to circulate and heat the mold surface.

Aluminum is used for tooling that has an EOL in the hundreds of thousands of parts.
It is typically used for molding microcellular foam gasketing and cast elastomer parts, and is milled or extruded into shape.

Mirror-finish stainless steel is used for tooling that imparts a glossy appearance to the finished part. The heat transfer characteristic of metal tooling is excellent.

Finally, molded or milled polypropylene is used to create low-volume tooling for molded gasket applications.
Instead of many expensive metal molds, low-cost plastic tooling can be formed from a single metal master, which also allows greater design flexibility.

The heat transfer characteristic of polypropylene tooling is poor, which must be taken into consideration during the formulation process.

Applications:
In 2007, the global consumption of polyurethane-39 raw materials was above 12 million metric tons, and the average annual growth rate was about 5%.
Revenues generated with PUR on the global market are expected to rise to approximately US$75 billion by 2022.

Degradation and environmental fate:
Effects of visible light:
Polyurethane-39 foam made with an aromatic isocyanate, which has been exposed to UV light.
Readily apparent is the discoloration that occurs over time.

Wikinews has related news:
Polyurethane-39 plastic substitute can biodegrade in seawater, say scientists
Polyurethanes, especially those made using aromatic isocyanates, contain chromophores that interact with light.

This is of particular interest in the area of polyurethane-39 coatings, where light stability is a critical factor and is the main reason that aliphatic isocyanates are used in making polyurethane-39 coatings. When PU foam, which is made using aromatic isocyanates, is exposed to visible light, it discolors, turning from off-white to yellow to reddish brown.

It has been generally accepted that apart from yellowing, visible light has little effect on foam properties.[48][49] This is especially the case if the yellowing happens on the outer portions of a large foam, as the deterioration of properties in the outer portion has little effect on the overall bulk properties of the foam itself.

It has been reported that exposure to visible light can affect the variability of some physical property test results.

Higher-energy UV radiation promotes chemical reactions in foam, some of which are detrimental to the foam structure.

Hydrolysis and biodegradation:
Polyurethanes may degrade due to hydrolysis.
This is a common problem with shoes left in a closet, and reacting with moisture in the air.

Microbial degradation of polyurethane-39 is believed to be due to the action of esterase, urethanase, hydrolase and protease enzymes.
The process is slow as most microbes have difficulty moving beyond the surface of the polymer. Susceptibility to fungi is better due to their release of extracellular enzymes, which are more able to permeate the polymer matrix.
Two species of the Ecuadorian fungus Pestalotiopsis are capable of biodegrading polyurethane-39 in aerobic and anaerobic conditions such as found at the bottom of landfills.
Degradation of polyurethane-39 items at museums has been reported.
Polyester-type polyurethane-39’s are more easily biodegraded by fungus than polyether-type













SAFETY INFORMATION ABOUT POLYURETHANE-39:

First aid measures:
Description of first aid measures:
General advice:
Consult a physician.
Show this safety data sheet to the doctor in attendance.
Move out of dangerous area:

If inhaled:
If breathed in, move person into fresh air.
If not breathing, give artificial respiration.
Consult a physician.
In case of skin contact:
Take off contaminated clothing and shoes immediately.
Wash off with soap and plenty of water.
Consult a physician.

In case of eye contact:
Rinse thoroughly with plenty of water for at least 15 minutes and consult a physician.
Continue rinsing eyes during transport to hospital.

If swallowed:
Do NOT induce vomiting.
Never give anything by mouth to an unconscious person.
Rinse mouth with water.
Consult a physician.

Firefighting measures:
Extinguishing media:
Suitable extinguishing media:
Use water spray, alcohol-resistant foam, dry chemical or carbon dioxide.
Special hazards arising from the substance or mixture
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas

Advice for firefighters:
Wear self-contained breathing apparatus for firefighting if necessary.
Accidental release measures:
Personal precautions, protective equipment and emergency procedures
Use personal protective equipment.

Avoid breathing vapours, mist or gas.
Evacuate personnel to safe areas.

Environmental precautions:
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Methods and materials for containment and cleaning up:
Soak up with inert absorbent material and dispose of as hazardous waste.
Keep in suitable, closed containers for disposal.

Handling and storage:
Precautions for safe handling:
Avoid inhalation of vapour or mist.

Conditions for safe storage, including any incompatibilities:
Keep container tightly closed in a dry and well-ventilated place.
Containers which are opened must be carefully resealed and kept upright to prevent leakage.
Storage class (TRGS 510): 8A: Combustible, corrosive hazardous materials

Exposure controls/personal protection:
Control parameters:
Components with workplace control parameters
Contains no substances with occupational exposure limit values.
Exposure controls:
Appropriate engineering controls:
Handle in accordance with good industrial hygiene and safety practice.
Wash hands before breaks and at the end of workday.

Personal protective equipment:
Eye/face protection:
Tightly fitting safety goggles.
Faceshield (8-inch minimum).
Use equipment for eye protection tested and approved under appropriate government standards such as NIOSH (US) or EN 166(EU).

Skin protection:
Handle with gloves.
Gloves must be inspected prior to use.
Use proper glove
removal technique (without touching glove's outer surface) to avoid skin contact with this product.
Dispose of contaminated gloves after use in accordance with applicable laws and good laboratory practices.
Wash and dry hands.

Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
Splash contact
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
It should not be construed as offering an approval for any specific use scenario.

Body Protection:
Complete suit protecting against chemicals, The type of protective equipment must be selected according to the concentration and amount of the dangerous substance at the specific workplace.
Respiratory protection:
Where risk assessment shows air-purifying respirators are appropriate use a fullface respirator with multi-purpose combination (US) or type ABEK (EN 14387) respirator cartridges as a backup to engineering controls.

If the respirator is the sole means of protection, use a full-face supplied air respirator.
Use respirators and components tested and approved under appropriate government standards such as NIOSH (US) or CEN (EU).
Control of environmental exposure
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Stability and reactivity:
Chemical stability:
Stable under recommended storage conditions.
Incompatible materials:
Strong oxidizing agents:
Hazardous decomposition products:
Hazardous decomposition products formed under fire conditions.
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas.

Disposal considerations:
Waste treatment methods:
Product:
Offer surplus and non-recyclable solutions to a licensed disposal company.
Contact a licensed professional waste disposal service to dispose of this material.
Contaminated packaging:
Dispose of as unused product.



POLYVEST OC 800 S
POLYVEST OC 800 S POLYVEST OC 800 S is a maleic anhydride adduct of polybutadiene. It is used as crosslinker component in 2-component adhesives and sealants. It possesses good electrical insulator and freezing temperatures resisting properties. POLYVEST OC 800 S provides an alternative to isocyanate crosslinking. Product Type Synthetic Rubbers > Polybutadienes Chemical Composition Polybutadiene Physical Form Liquid Colorant used for concrete protection, corrosion protection, floor coatings, industrial coatings, maintenance coatings, marine and container coatings, road marking systems, wood/furniture coatings, metal/furniture coatings and pigment concentrates. Product Type Color Pigments & Dyes Product Status AVAILABILITY NOT CONFIRMED * Applications/ Recommended for Coatings > UV / Radiation Curing Coatings Markets > Pigment concentrates Coatings Markets > Transportation > Road marking Coatings Markets > Wood & Furniture Coatings Coatings Markets > Metals Coatings Markets > Flooring Coatings Markets > General Industrial /Maintenance Coatings Markets > Marine /Anti-Corrosive / Protective > Concrete Notes: POLYVEST OC 800 S is a maleic anhydride adduct of a low molecular weight cis-1.4-polybutadiene. This polybutadiene adduct has succinic anhydride groups randomly distributed along the polymer chains. This makes the originally apolar polybutadiene more polar and thus accessible for various chemical reactions. POLYVEST OC 800 S is a good electrical insulator and can resist freezing temperatures. It is also soluble in aliphatics, aromatics, ethers and compatible with long-oil alkyd resins, rosin esters and zinc resinates. Available Properties Density, DIN 51 757 Iodine Absorption Number, DIN 53 241, g of Iod/ 100g Viscosity, DIN EN ISO 3219 Molecular Weight, Vapor Pressure Osmometry Molecular Weight, GPC Total Acid Number, DIN EN ISO 2114 Pour Point, DIN ISO 3016 Flash Point, DIN EN ISO 2719 Ignition Temperature, DIN 51 794 Gardner Color Number, DIN ISO 4630 POLYVEST OC 800 S is a maleic anhydride adduct of a low molecular weight cis-1.4-polybutadiene. This polybutadiene adduct has succinic anhydride groups randomly distributed along the polymer chains Product Type Resin > Polybutadienes Applications Polymers industry Chemical Composition Polybutadiene Advantages polar accessible for various chemical reactions good electrical insulator can resist freezing temperatures soluble in aliphatics, aromatics, ethers compatible with long-oil alkyd resins,rosin esters and zinc resinates Other Applications electrical insulator Appearance Properties Color <2.5 Gardner DIN ISO 4630 Physical Properties Molecular weight 2200 - 2600 g/mol GPC Pour point -25.0 ºC DIN ISO 3016 Molecular weight 1800 - 2400 g/mol Vapor Pressure Osmometry Viscosity 6000 - 9000 cP DIN EN ISO 3219@Temperature 20.0 °C Density 0.950 g/ml DIN 51 757@Temperature 20.0 °C Flash point 360 ºC DIN 51 794 Thermal Properties flash point 300 ºC DIN EN ISO 2719 Chemical Properties Iodine Value 380 - 420 g of Iod/ 100g; DIN 53 241 Acidity number 70 - 90 mg KOH/g DIN EN ISO 2114 POLYVEST OC 800 S is a maleic anhydride adduct of a low molecular weight cis-1.4-polybutadiene. This polybutadiene adduct has succinic anhydride groups randomly distributed along the polymer chains. This makes the originally apolar polybutadiene more polar and thus accessible for various chemical reactions. POLYVEST OC 800 S is a good electrical insulator and can resist freezing temperatures. It is also soluble in aliphatics, aromatics, ethers and compatible with long-oil alkyd resins,rosin esters and zinc resinates. POLYVEST® - non-functionalized liquid polybutadienes POLYVEST® MA - maleic anhydride-functionalized liquid polybutadienes POLYVEST® HT - hydroxyl-terminated liquid polybutadienes POLYVEST® ST - silane-terminated liquid polybutadienes Our non-functionalized products differ in molar mass and viscosity. The MA-functionalized products are adducts of linear polybutadiene and maleic anhydride and differ in maleic anhydride content and viscosity. The anhydride groups are randomly distributed along the polymer chains and thus make the originally apolar polybutadiene more polar and accessible for various chemical reactions. The hydroxyl-terminated product is an alpha-omega-terminated diol of polybutadiene manufactured by radical polymerisation process. In addition to the double bonds in the polymer backbone, the hydroxyl functional groups provide opportunities for precise chemical modifications. The silane-terminated products represent a new generation of functionalized liquid rubber additives. They combine the advantages of liquid rubbers and functional silanes. Their silane functionalities allow the surface modification of hydrophilic silica fillers and therefore improve the dispersibility of silica in rubber compounds. Due to its rubber-based nature POLYVEST® ST exhibits a natural fit and excellent compatibility to rubber matrix of tire compounds. POLYVEST® ST is available in three different grades with varying degree of silanization, which allows to optimize the silane/rubber ratio depending on the individual performance needs. YOUR BENEFITS The microstructure of our POLYVEST® grades makes them a highly reactive and cross-linking binder and provides them with properties including: - excellent chemical resistance - high water resistance - very good electrical insulation - very good cold-resistance - low moisture and oxygen permeability MARKETS & APPLICATIONS POLYVEST® grades are used in adhesives and sealants for: Automotive applications (e.g. tires, head lamps, sound damper, body & paint shop sealer) Coatings (e.g. air drying improver of vegetable oils, defoamers, impregnations, modifier in resin systems) Construction (e.g. insulated glass sealants, binder of dusty and dry quarz sand, binder for soil stabilization, modifier of silicone sealants) Electronics (e.g. electronical insulations and potting compounds) Plastics (e.g. cell opener for PU-foam, release agents for PU-foam) Polymer modification (e.g. chlorinated rubbers, electrocoatings) Printing & inks (e.g. offset printing inks, polymer printing plates) Rubber (e.g. binder for recycled rubber compounds, modifier in carbon black filled EPDM compounds, plasticizer in rubber compounds)
POLYVINYL ACETATE
POLYVINYL ACETATE = PVA


CAS Number: 9003-20-7
EC Number: 203-545-4
MDL Number: MFCD00084457
Linear Formula: [CH2CH(O2CCH3)]n


Polyvinyl Acetate is a homopolymer of Vinyl Acetate.
Polyvinyl Acetate is a synthetic resin prepared by the polymerization of vinyl acetate.
Polyvinyl Acetate is an Organic polymer prepared by treating its monomer, vinyl acetate, with peroxide catalysts.
Polyvinyl Acetate has a chemical formula of (C4H6O2)n.
Polyvinyl Acetate is the polymer of the unstable monomer vinyl acetate.


In the form of Polyvinyl Acetate, it is used to manufacture dispersions; in the form of polyvinyl alcohol (PVOH), is it found in protective films for mobile phones and LCD televisions; in the form of Polyvinyl butyral (PVB), it plays an important role in the production of composite safety glass for the automotive industry; and in the form of ethylene vinyl acetate (EVA) it is used in the manufacture of flip flop sandals and shower curtains.
Polyvinyl Acetate’s an aliphatic rubbery synthetic polymer which belongs to the polyvinyl ester family.


Polyvinyl Acetate can often time be confused with polyvinyl alcohol since base hydrolysis can convert polyvinyl acetate to polyvinyl alcohol and acetic acid.
Polyvinyl Acetate is prepared by the polymerization of the vinyl acetate monomer, through free radical vinyl polymerization of the vinyl acetate monomer.
Polyvinyl Acetate is one of those low-profile polymers, unlike polyethylene or polystyrene.


Polyvinyl Acetatemolecule likes to hide and can usually be found between 2 pieces of wood or paper glued together.
The reason for this is because Polyvinyl Acetate is the glue/adhesive between wood and paper.
Polyvinyl Acetate is a synthetic resin prepared by the polymerization of vinyl acetate.
Polyvinyl Acetateis normally made through the free radical polymerization of vinyl acetate, which is also a polymer.
Polyvinyl Acetate is a rubbery synthetic polymer.


Polyvinyl Acetate is prepared by polymerization of vinyl acetate monomer, also referred to as VAM.
Polyvinyl Acetate was discovered in Germany by Dr. Fritz Klatte in 1912.
Polyvinyl Acetate is a polymer composed of repeating acetoxyethylene units.
Polyvinyl acetate is a biocompatible and biodegradable polymer as it has hydrolyzable groups in the side chain, also Polyvinyl acetate is non-toxic and non-carcinogenic.


The degree of polymerization of polyvinyl acetate typically is 100 to 5000.
The ester groups of the polyvinyl acetate are sensitive to base hydrolysis and will slowly convert Polyvinyl acetate into polyvinyl alcohol and acetic acid.
Under alkaline conditions, boron compounds such as boric acid or borax cause the polymer to cross-link, forming tackifying precipitates or slime.
Polyvinyl Acetate is a vinyl polymer, as if you couldn't guess from the name.


Polyvinyl Acetate's made by free radical vinyl polymerization of the monomer vinyl acetate.
In order for a Polyvinyl Acetate glue to form as strong an adhesive bond as possible, the user should work at room temperature, ensure good air circulation, and put pressure on the materials being glued together, such as by using clamps.
This type of adhesive is not suitable for use in places where it will be exposed to moisture or water.
Polyvinyl Acetate should also not be allowed to freeze, because this will make the glue lose its ability to form a strong bond.


Polyvinyl Acetate, or PVA for short, is one of those low-profile behind-the-scenes polymers.
Polyvinyl Acetate isn't blatantly obvious where it's found, as is the case with polyethylene or polystyrene.
Polyvinyl Acetate likes to hide.
But Polyvinyl Acetate's everywhere, if you're willing to look for it.
Polyvinyl Acetate's a polymer that rewards one who is willing to look beyond the surface.


One place Polyvinyl Acetate can be found hiding is between two pieces of wood that are glued together.
An aliphatic rubbery synthetic polymer with the formula (C4H6O2)n, Polyvinyl Acetate belongs to the polyvinyl ester family, with the general formula −[RCOOCHCH2]−.
Polyvinyl Acetate is a type of thermoplastic.
The degree of polymerization of Polyvinyl Acetate is typically 100 to 5000, while its ester groups are sensitive to base hydrolysis and slowly convert PVAc into polyvinyl alcohol and acetic acid.


The glass transition temperature of Polyvinyl Acetate is between 30 and 45 °C depending on the molecular weight.
A number of microorganisms can degrade Polyvinyl Acetate.
Most commonly, damage is caused by filamentous fungi; however, algae, yeasts, lichens, and bacteria can also degrade polyvinyl acetate.
Polyvinyl acetate was discovered in Germany in 1912 by Fritz Klatte.
Polyvinyl Acetate (PVAc) is a synthetic resin prepared by the polymerization of vinyl acetate.


When Polyvinyl Acetate is incorporated into emulsion coatings and adhesives, it is normally converted to polyvinyl alcohol first, which is a water-soluble polymer.
This is done by means of partial hydrolysis.
The result is stronger and more durable than if the compound had been isolated and used in its raw form.
Polyvinyl acetate, which is also commonly referred to as “PVA” or “PVAc,” tends to be quite flexible and has a strong binding capability, which is one of the main reasons it’s so popular in products like glue.


Polyvinyl Acetate is made from vinyl acetate, and has the chemical formula of (C4H6O2)n.
Polyvinyl Acetate is primarily a synthetic resin polymer.
Due Polyvinyl Acetate's non-polar nature, it tends to be insoluble in water, oils, fats, or gasoline.
This makes Polyvinyl Acetate very durable.
On the other hand, Polyvinyl Acetate is soluble in alcohols, ketones, and esters, so this durability isn’t without its limits.


Practically speaking, this means that the polymer won’t erode or get weaker when wet, but it probably shouldn’t be exposed to alcohol or related chemicals, at least not for long periods of time.
Polyvinyl Acetate has a molar mass of 86.09 grams per mole (g/mol). The ester groups in Polyvinyl Acetate's structural lattice make it reactive with alkalis, and leads to the formation of polyvinyl alcohol (PVOH, PVA, or PVAL) and acetic acid (CH3COOH).


Boron compounds like borax and boric acid also react with the polymer under alkaline settings, leading to the formation of a complex borate-slime-precipitate.
Polyvinyl Acetate is a homopolymer that is produced by the reaction of vinyl acetate monomer with water, polyvinyl alcohol and catalysts.
Polyvinyl Acetate is used as a raw material in water based adhesives sector.
They are white colored and become transparent when dry.
They are soluble in water.


Polyvinyl acetate (PVAc, PVA) is an atactic, highly branched, and noncrystalline thermoplastic, prepared by conventional free-radical polymerization.
Polyvinyl acetate has good resistance to UV and oxidation, but is rather brittle below its Tg (ca. 35°C) and very sticky above it.
Polyvinyl acetateemulsions are produced on a very large scale.


They are inexpensive and possess good adhesion to many porous substrates, but are not effective on non-porous surfaces.
They are one of the main ingredients of water based glues, commonly referred to as wood glue, carpenter's glue, Elmer's glue (USA), or white glue.
As wood glue Polyvinyl Acetate is known as "white glue" and the yellow "carpenter's glue" or PVA glue.
Polyvinyl acetate is also the raw material to make other polymers like:


Polyvinyl alcohol -[HOCHCH2]-:
Polyvinyl acetate is partially or completely hydrolysed to give polyvinyl alcohol.
This reversible saponification and esterification reaction was a strong hint for Hermann Staudinger in the formulation of his theory of macro molecules.
Polyvinyl acetate phthalate (PVAP): Polyvinyl acetate is partially hydrolyzed and then esterified with phthalic acid.



USES and APPLICATIONS of POLYVINYL ACETATE:
Cosmetic Uses of Polyvinyl Acetate: antistatic agents, binding agents, emulsion stabilisers, and film formers
Polyvinyl Acetate's most important application is serving as the film-forming ingredient in water-based (latex) paints; Polyvinyl Acetate also is used in adhesives.
Polyvinyl Acetate can also be used to protect cheese from fungi and humidity.


Polyvinyl Acetate uses and applications include: Binder in paints; adhesives for food packaging, paper, wood, glass, and metals; primer sealers; dry wall cement; intermediate for conversion to polyvinyl alcohol and acetals; component of lacquers, inks; paper coatingsizing; textile stiffeningfinishing; nonwoven fabric bindersizing; suspending agent in PVC manufacturing; dispersant; stabilizer; diluent in food colorants; antistat, binder, emulsion stabilizer, film-former in cosmetics; binder, emulsion stabilizer, film-former for oral pharmaceuticals; masticatory in chewing gums; in food-contact coatings; in paperpaperboard in contact with aqueousfattydry foods; in cellophane for food packaging; in food-contact textiles; used in oil well cementing applications for fluid loss control, rheology modification, and improved bonding


As an emulsion in water, Polyvinyl Acetate is sold as an adhesive for porous materials, particularly wood, paper, and cloth.
Polyvinyl Acetate is the most commonly used wood glue, both as "white glue" and the yellow "carpenter's glue."
Polyvinyl Acetate is widely used in bookbinding and book arts due to its flexibility, and because it is non-acidic, unlike many other polymers.
Polyvinyl Acetate is a common copolymer with more expensive acrylics, used extensively in paper, paint and industrial coatings, referred to as vinyl acrylics.


Polyvinyl Acetate is slowly attacked by alkali, forming acetic acid as a hydrolysis product.
Boron compounds like boric acid or borax will form tackifying precipitates by causing the polymer to cross-link.
Polyvinyl Acetate is also commonly recommended for use in making leather handcrafted works and papier-mâché.
Polyvinyl Acetate, (C4H6O2)n, serves as the film-forming ingredient in water-based (latex) paints; Polyvinyl Acetate also is used in adhesives and glues, such as Elmer's Glue.


Partial or complete hydrolysis of the polymer is used to prepare polyvinyl alcohol.
Hydroylized alcohol product is typically in the 87% to 99% range (converted PVA).
Polyvinyl Acetate is the basic ingredient in numerous products in our daily lives.
Other fields of application include as binding agents in the construction and the paints and varnishes industries.
Polyvinyl Acetateis a thermoplastic material which is primarily used in dissolved form and for coating.


Polyvinyl Acetateis a component of adhesives, adhesive tapes and carpet coatings.
Since Polyvinyl Acetate is considered to be harmless, it is also used to coat cheese rinds and sausage casings.
Polyvinyl Acetate coats can also be produced by means of plasma polymerisation and have a hydrophiliceffect.
A thermoplastic resin based on Polyvinyl Acetate homopolymers is used for the production of paints, varnishes, sizes, etc.


Polyvinyl Acetate is soluble in alcohols, esters, ketones, toluene and chlorinated hydrocarbons, and is particularly suitable for the consolidation and heat-sizing of archaeological finds and ceramics.
Polyvinyl Acetate, a synthetic resin prepared by the polymerization of vinyl acetate has good potential as an edible coating.
Polyvinyl Acetate coatings had high gloss, even after immersion of coated surfaces in water.


The primary advantages of using Polyvinyl Acetate as an edible coating are its unique combination of properties and its low cost has been already used in pharmaceutical coatings and as an ingredient in chewing gum.
Polyvinyl Acetate mainly used in pharmaceutical coatings and as an ingredient in chewing gum.
Polyvinyl Acetate is used in pharmaceutical coatings as an ingredient in chewing gum.


Owing to Polyvinyl acetate's biologically friendly nature , it is used in various biomedical application such as artificial organ implant, contact lens,cardiovascular devices and cartilage skin.
Polyvinyl acetate is also used in wound dressing and various drug-delivery applications.
Polyvinyl acetate has been accepted as reference standard for universal calibration in gel permeation chromatography.


Polyvinyl acetate is used as an adhesive for porous materials such as wood, paper, cloth and in handicrafts.
Polyvinyl acetate also finds application as a primer for drywall, as wallpaper adhesive, as the film-forming ingredient in water-based (latex) paints and as an envelope adhesive.
Polyvinyl acetate is used as a raw material for the preparation of other polymers like polyvinyl alcohol and polyvinyl acetate phthalate (PVAP).


Polyvinyl acetate plays an important role in the lamination of metal foils.
Polyvinyl Acetate is used drug delivery, hemodynamics, wound dressing, coatings.
As an emulsion in water, Polyvinyl Acetate emulsions are used as adhesives for porous materials, particularly for wood, paper, and cloth, and as a consolidant for porous building stone, in particular sandstone .


Polyvinyl Acetate is used to make wood glues, as well as other adhesives.
Paper and textiles often have coatings made of Polyvinyl Acetate and other ingredients to make them shiny.
As a dispersion in water (usually an emulsion), Polyvinyl Acetate preparations are used as adhesives for porous materials, particularly for wood, paper, and cloth, and as a consolidant for porous building stone, in particular sandstone.


As wood glue, Polyvinyl Acetate is known as "white glue" and the yellow as "carpenter's glue".
Polyvinyl Acetate is used as paper adhesive during paper packaging conversion.
Polyvinyl Acetate is used in bookbinding and book arts, due to its flexible strong bond and non-acidic nature (unlike many other polymers).
The use of Polyvinyl Acetate on the Archimedes Palimpsest during the 20th century greatly hindered the task of disbinding the book and preserving and imaging the pages in the early 21st century, in part because the glue was stronger than the parchment it held together.


Polyvinyl Acetate is used, In handicrafts.
Polyvinyl Acetate is used as envelope adhesive, wallpaper adhesive, a primer for drywall and other substrates, a gum base in chewing gum, an adhesive for cigarette paper, and the coating layer on Gouda cheese.
The stiff homopolymer Polyvinyl Acetate, but mostly the softer copolymer, is used a combination of vinyl acetate and ethylene, vinyl acetate ethylene (VAE).


Polyvinyl Acetate is also used in paper coatings, paint and other industrial coatings, as a binder in nonwovens in glass fibers, sanitary napkins, filter paper and in textile finishing.
Polyvinyl Acetate (PVA, PVAc, poly(ethenyl ethanoate)), commonly known as wood glue, PVA glue, white glue, carpenter's glue, school glue, is a widely available adhesive used for porous materials like wood, paper, and cloth.
In its most important application, Polyvinyl Acetate serves as the film-forming ingredient in water-based (latex) paints; Polyvinyl Acetate also is used in adhesives.


Polyvinyl Acetate can be processed directly into latex paints, in which it forms a strong, flexible, adherent film.
Polyvinyl Acetate can also be made into a common household adhesive known as white glue or Elmer’s glue.
When employed in coatings or adhesives, Polyvinyl Acetate is often partially hydrolyzed to a water-soluble polymer known as polyvinyl alcohol.
Polyvinyl Acetate is a thermoplastic polymer commonly used in glues, paint, and a number of industrial adhesives.
Polymers are essentially large molecules linked together in such a way that they are very strong and durable.


Most plastics and synthetic materials contain them.
Polyvinyl acetate (PVAc) exhibits a visco-elastic nature between 0-50°C, the temperature bandwidth most suitable for sound damping.
One of the most important uses of Polyvinyl acetate adhesives is in the packaging industry.
Polyvinyl acetate is used as an inexpensive, low-toxic, and no odor adhesive to bond and seal high energy surfaces such as paper, corrugated carton, cotton, and wood, to name only a few.


Polyvinyl acetate is often preferred over other types of adhesives because of its low cost, good stability to light, and its resistance to unappealing yellowing.
Polyvinyl acetate finds additional uses as a plasticizer and thickener for paints, textile finishes, plastics, cement, and chewing gum.
Polyvinyl acetate is noticeably cheaper than acrylic resins (approximately half the cost) and is therefore often added to acrylic latex paints to lower cost.


However, the best exterior water-based paints are 100 percent acrylic due to elasticity and other factors.
Because of its water sensitivity, (unmodified) polyvinyl acetate is generally viewed as inappropriate for exterior uses.
Polyvinyl acetate is used as paper adhesive during paper packaging converting
In bookbinding and book arts, due to Polyvinyl acetate's flexible strong bond and non-acidic nature (unlike many other polymers).


The stiff homopolymer Polyvinyl acetate, but mostly the more soft copolymer a combination of vinyl acetate and ethylene, vinyl acetate ethylene (VAE).
Polyvinyl acetate is used also in paper coatings, paint and other industrial coatings, as binder in nonwovens in glass fibers, sanitary napkins, filter paper and in textile finishing.
Polyvinyl acetate can also be used as coating to protect cheese from fungi and humidity.


-Coatings:
Formulations incorporating Polyvinyl Acetate resins exhibit excellent resistance to oil and grease, reduced water vapour permeability, and enhanced durability.


-Use in Glues:
One of the most common places to find Polyvinyl Acetate is in glues.
Polyvinyl acetate was first discovered by a German scientist Dr. Fritz Klatte in 1912 as a binding agent, and ever since that time it has been used in a variety of settings involving porous materials like wood and paper.
Many different types of adhesives, from regular craft glues to construction solvents, depend at least in part on this polymer to be as strong as they are.
Polyvinyl Acetate is also widely used for the production of general adhesives, which are more commonly known as carpenter's or white glue.
A close examination of the ingredient list of most household adhesives will show Polyvinyl Acetate in some form.


-Industrial uses:
Polyvinyl acetate is a leathery, colorless thermoplasticmaterial that softens at relatively lowtemperatures and that is relatively stable to lightand oxygen.
The polymers are clear and noncrystalline.
The chief applications of Polyvinyl acetate are as adhesives and binders for waterbasedor emulsion paints.
Vinyl acetate is conveniently prepared bythe reaction of acetylene with acetic acid.


-Other Common Uses:
Polyvinyl Acetate is also used in the paper and textile industry to produce coatings that lend a shiny touch to surfaces.
Polyvinyl Acetate is commonly part of the manufacture of latex paints, too.
In these settings Polyvinyl Acetate helps in form a tough coating and a supportive film.
Polyvinyl Acetate is also used as a protective “shell” or casing for cheese to render it safe from humidity and fungi.



POLYVINYL ACETATE'S ROLE IN INDUSTRY:
Industrial manufacturers and producers use PVA, too, but in these cases it’s more commonly found in the form of a liquefied emulsion that can be added to coatings or coverings for machines, or as a lubricant for certain mechanical activities.
Polyvinyl Acetate typically has a high resistance to UV rays and oxidation, which makes it a good choice for a number of outdoor and high-temperature applications.
Polyvinyl Acetate is a polymer with good aging characteristics, but in some cases its water sensitivity can be a problem.
This is typically taken care of by formulating it with plasticizers to increase its reliability and stability.



HOW POLYVINYL ACETATE'S MADE:
Polyvinyl Acetate is normally manufactured through the free radical polymerization of vinyl acetate, which is also a polymer.
Scientists isolate Polyvinyl Acetate first, then manipulate it in order to slightly change its structure.
Most of the time this happens in water.
Monomer molecules of vinyl acetate typically react when they’re submerged in water, and usually create an emulsion that is milky white in color.
The emulsion fluid can in most cases be instantly processed as a polyvinyl acetate polymer by removing it from the water and allowing it to stabilize at room temperature.



PREPARATION OF POLYVINYL ACETATE:
Polyvinyl Acetate is a vinyl polymer.
Polyvinyl acetate is prepared by polymerization of vinyl acetate monomer (free radical vinyl polymerization of the monomer vinyl acetate).



PRODUCTION METHODS OF POLYVINYL ACETATE:
Polyvinyl acetate is derived from the polymerization of vinyl acetate; the catalysts used in polymerization may include hydrogen peroxide, peroxy sulfates, or various redox combinations.
The polymerization process is described as being carried out by charging all ingredients to the reactor, heating to reflux, and stirring until the reaction is complete.
Typically, only a part of the monomer and catalyst is initially charged; the remainder is added during the course of the reaction.



HISTORY OF POLYVINYL ACETATE:
Polyvinyl acetate was discovered in Germany in 1912 by Fritz Klatte.
The monomer, vinyl acetate, was first produced on an industrial scale by addition of acetic acid to acetylene with a mercury(I) salt but it is now primarily made by palladium catalyzed oxidative addition of acetic acid to ethylene.



POLYVINYL ACETATE EMULSIONS & DERIVATIVES:
Polyvinyl Acetate (PVAc) adhesives offer good resistance to oil, grease and acid.
Adhesives based on Polyvinyl Acetate resin are environmentally friendly and do not pose any health risks.
Polyvinyl Acetate based adhesives are strong, deliver a dry to a clear film and offer good adhesion to a variety of surfaces.
Polyvinyl Acetate emulsions find uses in applications like bonding paper and wood assembly.
They are also known as white glue in adhesive applications.



POLYVINYL ACETATE EMULSION:
Polyvinyl Acetate emulsion is a thermoplastic polymer.
Because of Polyvinyl Acetate's excellent adhesion and convenience, it is widely used as adhesive for paper and woodwork.
Polyvinyl Acetate is even used as a household adhesive/glue after re-packaged into smaller containers.
Polyvinyl acetate (PVAc) dispersions are used mainly for interior applications.
Advantages include high initial bonding strength and ease of use.
The glueline is flexible.



POLYVINYL ACETATE (PVA) GLUE
Any glue consisting chiefly of polyvinyl acetate polymer.
This category includes both traditional white glues and yellow aliphatic resin glues.
Although Polyvinyl Acetate glues can vary in strength, flexibility, water resistance, heat resistance and sandability, they are generally non-toxic.
All Polyvinyl Acetate glues are prone to “creep” or slowly stretch under long term loads, and are not recommended for structural applications.



WHAT IS POLYVINYL ACETATE ADHESIVE?
Polyvinyl acetate, also known as PVA or PVAc, is a synthetic polymer, or plastic.
Polyvinyl Acetate is more specifically categorized as a thermoplastic, meaning it melts at high temperatures, and has certain properties such as being elastic and flexible at room temperature.
Polyvinyl acetate adhesive is glue containing this compound.

Many common types of glue, including standard white or school glue, contain this material.
Yellow carpenter's glue, commonly used for woodworking projects, is also a polyvinyl acetate adhesive, as is the similar white wood glue.
Polyvinyl Acetate glues are considered very easy to use, since they can be cleaned up with water, are safe to handle without gloves or other skin protection, and do not give off any hazardous fumes, but they do not hold up well in moist or wet conditions.

A Polyvinyl Acetate adhesive works best on porous materials, such as wood, paper, and cardboard, and is also recommended when gluing vinyl and leather.
Many Polyvinyl Acetate glues are white, and they are used for a wide variety of purposes, such as making collages, paper crafts, and woodworking projects.
These adhesives are acid-free, which makes them especially suited to projects like bookbinding, where an acidic adhesive would deteriorate the paper.

Yellow carpenter's glue is commonly used both for DIY home construction projects and for woodworking projects, such as furniture making.
This glue keeps its yellow tinge when it dries, while a white adhesive dries clear.
White Polyvinyl Acetate glue also has a longer drying time than yellow glue.
Both work well for most types of wood, but they do not always provide a strong bond if the wood is oily, like teak.
The adhesive's water content can also make some types of wood, like beech, warp.



PURIFICATION METHODS OF POLYVINYL ACETATE:
Precipitate Polyvinyl Acetate from acetone by addition of n-hexane.



POLYVINYL ACETATE OVERCOMES VARIABLE PERFORMANCE ISSUES CAUSED BY:
*No external mould heating
*Variable resin thickness and exotherm
*Intricate mould design.



POLYVINYL ACETATE ENHANCES ADHESIVE, SEALANT AND POLYESTER COMPOSITE APPLICATIONS:
*Polyester composites
*Adhesives
*Sound damping



KEY BENEFITS OF POLYVINYL ACETATE:
*Thermoplastic and adhesive
*Very low odour
*Good compatibility with plasticisers
*Wide range of solvent solubilities
*Convenient ready-to-use solutions available



POLYVINYL ACETATE IS ALSO THE RAW MATERIAL TO MAKE OTHER POLYMERS LIKE:
Polyvinyl alcohol −[HOCHCH2]−:
Polyvinyl Acetate is partially or completely hydrolysed to give polyvinyl alcohol.
This reversible saponification and esterification reaction was a strong hint for Hermann Staudinger in the formulation of his theory of macromolecules.
Polyvinyl acetate phthalate (PVAP):
Polyvinyl acetate is partially hydrolyzed and then esterified with phthalic acid.
Poly vinyl acetate (PVA) is a thermoforming resin that is usually water carried and generally used for the wood working and DIY industries.



PHYSICAL and CHEMICAL PROPERTIES of POLYVINYL ACETATE:
Chemical formula: (C4H6O2)n
Molar mass: 86.09 g/mol per unit
Density: 1.19 g/cm3 (25 °C)
Boiling point: 112 °C (234 °F; 385 K)
Appearance: Physical State & Color: Solid/Beads/Clear
Odor: Essentially Odorless
Odor Threshold: Not Available
pH: Not Available
Melting Point: Not Available
Boiling Point: Not Available


Flash Point: Not Available
Evaporation Rate: Not Available
Flammability (solid, gas): Not Available
Lower & Upper Flammability/Explosive Limits: Not Available
Vapor Pressure: Not Available
Vapor Density: Not Available
Relative Density: Not Available
Solubility: Insoluble in Water
Partition coefficient: n-octanol/water: Not Available
Auto-ignition Temperature: 427°C (800.6°F)
Decomposition Temperature: Not Available
Viscosity: Not Available


Melting point: 60°C
Boiling point: 70-150 °C
Density: 1.18 g/mL at 25 °C
refractive index: n20/D 1.467
Flash point: >100℃
storage temp.: 2-8°C
solubility: ketones, ethers and aromatic hydrocarbons: soluble
form: pellets
color: Clear
PH: 3.0-5.5
Stability: Stable.
Appearance: powder and/or granules
Viscosity (in Ethyl Acetate): (al 10%) 25 ± 5 mPas
Specific gravity: 1,20 kg/l
Softening point: 145° - 165°C



FIRST AID MEASURES of POLYVINYL ACETATE:
-Description of Necessary First-Aid Measures:
*Inhalation:
Move person to fresh air; if effects occur, consult a physician
*Skin:
Wash skin with plenty of water.
Seek first-aid or medical attentions as needed.
Suitable emergency safety shower facility should be immediately available
*Eyes:
Flush eyes thoroughly with water for several minutes.
Remove contact lenses.
*Ingestion:
If swallowed, seek medical attention.
-Indication of Immediate Medical Attention & Special Treatment Needed, If Necessary:
*Note to Physician:
Treat symptomatically.
*Specific Treatments:
No specific treatment



ACCIDENTAL RELEASE MEASURES of POLYVINYL ACETATE:
-Personal Precautions, Protective Equipment & Emergency Procedures:
Use appropriate safety equipment.
-Environmental Precautions:
Prevent from entering into soil, ditches, sewers, waterways and/or groundwater.
For additional information.
*Methods & Materials for Containment & Clean Up:
Contain spilled material if possible.
Sweep up.
Collect in suitable and properly labeled containers.



FIRE FIGHTING MEASURES of POLYVINYL ACETATE:
-Suitable Extinguishing Media:
Use dry chemical powder, water spray (fog), carbon dioxide.



EXPOSURE CONTROLS/PERSONAL PROTECTION of POLYVINYL ACETATE:
-Engineering Controls:
Safety shower and eye bath.
-Personal Protective Measures:
*Respiratory:
Respiratory protection is not required.
*Hand:
Protective gloves
*Eye:
Chemical safety goggles
*Hygiene Measures:
Wash thoroughly after handling.



HANDLING and STORAGE of POLYVINYL ACETATE:
-Precautions for Safe Handling:
No smoking, open flames or sources of ignition in handling and storage areas.
Wear appropriate personal protective equipment.
-Conditions for Safe Storage:
Keep container tightly closed in a dry and well ventilated place.



STABILITY and REACTIVITY of POLYVINYL ACETATE:
-Chemical Stability:
The product is stable.
-Possibility of Hazardous Reactions:
Under normal conditions of storage and use, hazardous reactions will not occur.
-Hazardous Decomposition Products:
Under normal conditions of storage and use, hazardous decomposition products should not be produced.



SYNONYMS:
Poly[1-(acetyloxy)ethylene]
Other names
PVAc
PVA
Poly(ethenyl ethanoate)
Poly(ethenyl acetate)
ACETIC ACID ETHENYL ESTER
HOMOPOLYMER, ACETIC ACID
ETHENYL ESTER
HOMOPOLYMER
ACETYLATED POLYVINYL ALCOHOL
ETHENYL ACETATE
HOMOPOLYMER
ETHENYL ESTER HOMOPOLYMER ACETIC ACID
HOMOPOLYMER ACETIC ACID, ETHENYL ESTER
HOMOPOLYMER ETHENYL ACETATE
POLY(VINYL ACETATE)
VINYL ACETATE HOMOPOLYMER
VINYL ACETATE, HOMOPOLYMER
VINYL ACETATE POLYMER
POLYVINYL ACETATE
POLYVINYL ACETATE EMULSION
POLYVINYL ACETATE SOLUTION
POLY(VINYL ACETATE) HYDROLYZED
POLY(VINYL ACETATE)
76res
aceticacid,vinylester,polymer
Aceticacidethenylester,homopolymer
aceticacidethenylesterhomopolymer
aceticacidvinylester,polymers
asahisol1527
POLY(VINYL ACETATE)
Polyvinyl acetate
Acetic acid, ethenyl ester, homopolymer
Acetic acid, vinyl ester, polymer
Acetic acid vinyl ester polymers
Ethenyl acetate, homopolymer
Poly (vinylacetate)
Polyvinyl acetate homopolymer
Polyvinyl acetate resin
PVA
PVAc
Vinyl acetate homopolymer
Vinyl acetate polymer
Vinyl acetate resin
PVA
PVAc
POLY(VINYL ACETATE) HYDROLYZED
POLY(VINYL ACETATE)
aceticacid,vinylester,polymer
Aceticacidethenylester,homopolymer
aceticacidethenylesterhomopolymer
aceticacidvinylester,polymers
asahisol1527
POLY(VINYL ACETATE)
Polyvinyl acetate
Acetic acid, ethenyl ester, homopolymer
Acetic acid, vinyl ester, polymer
Acetic acid vinyl ester polymers
Ethenyl acetate, homopolymer
POLYVINYL ACETATE
POLYVINYLCAPROLACTAM;poly-N-vinylcaprolactam; 2H-Azepin-2-one, 1-ethenylhexahydro-, homopolymercas no:25189-83-7
POLYVINYLCAPROLACTAM
SYNONYMS 1-Ethenyl-2-pyrrolidinone homopolymer;1-Ethenyl-2-pyrrolidone polymer;1-Vinyl-2-pyrrolidinone polymer;1-Vinyl-2-pyrrolidone homopolymer;1-Vinyl-2-pyrrolidone polymer;2-Pyrrolidinone, 1-etheny-, homopolymer;2-Pyrrolidinone, 1-ethenyl-, homopolymer;2-Pyrrolidinone, 1-ethenyl-, polymer with aluminum oxide (Al2O3) and silica, graft;2-Pyrrolidinone, 1-ethenyl-, polymer with silica, graft;2-Pyrrolidinone, 1-vinyl-, polymers;2-pyrrolidinone,1-ethenyl-,homopolymer;2-Pyrrolidione,1-ethenyl-,homopolymer CAS NO:9003-39-8
POLYVINYLPYRROLIDONE
Povidone is a hygroscopicpolymer ,supplied in white or creamy white powder or flakes,ranging from low tohigh viscosity & low to high molecular weight,which characterized by KValue.It’s easily soluble in water and many other organic solvents,withexcellent hygroscopisty,film-forming,adhesive,chemical stability andtoxicological safeness characters. Applications:Povidone is one of the most important excipientin the worldwide for pharmaceutical industry,whatever for human health careproducts and animal health care products.It’s more and more used as: 1)Binderfor tables,capsule, 2)Sugar coatings and films, 3)Thickening agent, 4)SolubilityImprover for poorly soluble drugs, 5)Bioavailability Enhancer for drug’s activeingredients, 6)Pore-forming for membrane products. PVP was used as a plasma volume expander for trauma victims after the 1950s. It is not preferred as volume expander due to its ability to provoke histamine release and also interfere with blood grouping. It is used as a binder in many pharmaceutical tablets;it simply passes through the body when taken orally. (However, autopsies have found that crospovidone (PVPP) contributes to pulmonary vascular injury in substance abusers who have injected pharmaceutical tablets intended for oral consumption.The long-term effects of crospovidone or povidone within the lung are unknown). PVP added to iodine forms a complex called povidone-iodine that possesses disinfectant properties.This complex is used in various products like solutions, ointment, pessaries, liquid soaps and surgical scrubs. It is known under the trade names Pyodine and Betadine, among a plethora of others. It is used in pleurodesis (fusion of the pleura because of incessant pleural effusions). For this purpose, povidone iodine is equally effective and safe as talc, and may be preferred because of easy availability and low cost. PVP is used in some contact lenses and their packaging solutions. It reduces friction, thus acting as a lubricant, or wetting agent, built into the lens. Examples of this use include Bausch & Lomb's Ultra contact lenses with MoistureSeal Technology and Air Optix contact lens packaging solution (as an ingredient called "copolymer 845"). PVP is used as a lubricant in some eye drops, e.g. Bausch & Lomb's Soothe.Technical PVP is also used in many technical applications: as an adhesive in glue stick and hot-melt adhesives[citation needed] as a special additive for batteries, ceramics, fiberglass, inks, and inkjet paper, and in the chemical-mechanical planarization process as an emulsifier and disintegrant for solution polymerization to increase resolution in photoresists for cathode ray tubes (CRT) in aqueous metal quenching for production of membranes, such as dialysis and water purification filters as a binder and complexation agent in agricultural applications such as crop protection, seed treatment and coating as a thickening agent in tooth whitening gels as an aid for increasing the solubility of drugs in liquid and semi-liquid dosage forms (syrups, soft gelatine capsules) and as an inhibitor of recrystallisation as an additive to Doro's RNA extraction buffer[citation needed] as a liquid-phase dispersion enhancing agent in DOSY NMR as a surfactant, reducing agent, shape controlling agent and dispersant in nanoparticle synthesis and their self-assembly as a stabilizing agent in all inorganic solar cells Other uses PVP binds to polar molecules exceptionally well, owing to its polarity. This has led to its application in coatings for photo-quality ink-jet papers and transparencies, as well as in inks for inkjet printers. PVP is also used in personal care products, such as shampoos and toothpastes, in paints, and adhesives that must be moistened, such as old-style postage stamps and envelopes. It has also been used in contact lens solutions and in steel-quenching solutions.PVP is the basis of the early formulas for hair sprays and hair gels, and still continues to be a component of some. As a food additive, PVP is a stabilizer and has E number E1201. PVPP (crospovidone) is E1202. It is also used in the wine industry as a fining agent for white wine and some beers. In molecular biology, PVP can be used as a blocking agent during Southern blot analysis as a component of Denhardt's buffer. It is also exceptionally good at absorbing polyphenols during DNA purification. Polyphenols are common in many plant tissues and can deactivate proteins if not removed and therefore inhibit many downstream reactions like PCR. In microscopy, PVP is useful for making an aqueous mounting medium. PVP can be used to screen for phenolic properties, as referenced in a 2000 study on the effect of plant extracts on insulin production. Safety The U.S. Food and Drug Administration (FDA) has approved this chemical for many uses,and it is generally considered safe. However, there have been documented cases of allergic reactions to PVP/povidone, particularly regarding subcutaneous (applied under the skin) use and situations where the PVP has come in contact with autologous serum (internal blood fluids) and mucous membranes. For example, a boy having an anaphylactic response after application of PVP-Iodine for treatment of impetigo was found to be allergic to the PVP component of the solution. A woman, who had previously experienced urticaria (hives) from various hair products, later found to contain PVP, had an anaphylactic response after povidone-iodine solution was applied internally. She was found to be allergic to PVP.In another case, a man experiencing anaphylaxis after taking acetaminophen tablets orally was found to be allergic to PVP. Povidone is commonly used in conjunction with other chemicals. Some of these, such as iodine, are blamed for allergic responses, although testing results in some patients show no signs of allergy to the suspect chemical. Allergies attributed to these other chemicals may possibly be caused by the PVP instead. Properties PVP is soluble in water and other polar solvents. For example, it is soluble in various alcohols, such as methanol and ethanol,as well as in more exotic solvents like the deep eutectic solvent formed by choline chloride and urea (Relin).When dry it is a light flaky hygroscopic powder, readily absorbing up to 40% of its weight in atmospheric water. In solution, it has excellent wetting properties and readily forms films. This makes it good as a coating or an additive to coatings. A 2014 study found fluorescent properties of PVP and its oxidized hydrolyzate. History PVP was first synthesized by Walter Reppe and a patent was filed in 1939 for one of the derivatives of acetylene chemistry. PVP was initially used as a blood plasma substitute and later in a wide variety of applications in medicine, pharmacy, cosmetics and industrial production. PVP has biocompatibility, low toxicity, adhesive characteristics, complexing stability, relatively inert behavior, and is resistant to thermal degradation. It is readily prepared by the polymerization of N-vinyl-2-pyrrolidone or by Reppe synthesis technique.PVP is used as a carrying polymer for electrospinning continuous titania nanofibers and zirconium tungstate ultra thin fibers. PVP may be used as one of the constituents in the synthesis of silver nanocubes. It serves as a reducing agent and colloidal stabilizer in the synthesis of palladium nanobars,triangular and nanoplates.It may also used as a capping agent in the synthesis of silver nanospheres,gold nanoframes.General applications pf PVP are: in pharmaceutical, food, beverage, cosmetic, toiletry and photographic industries.Polyvinylpyrrolidone is a component of Denhardt′s Solution and is included at a concentration of 1% (w/v) in the standard 50X stock solution.PVP or povidone is a hygroscopic, amorphous, synthetic polymer consisting of linear 1-vinyl-2-pyrrolidinone groups. As a binder, PVP is used in the concentration range of 0.5%–5% w/w. Different degrees of polymerization of PVP resulted in polymers of various molecular weights. It is generally characterized by its viscosity in aqueous solution relative to that of water and expressed as a K value in the range of 10–120. Povidones with K-values ≤ 30 are manufactured by spray drying as spheres, whereas povidones with higher K-values are manufactured by drum drying as plates (Chakraborty, Ghosh, & Chakraborty, 2015). Wet granulation with povidone K25/30/90 generally gives harder granules with better flow properties than with other binders with lower friability and higher binding strength. Moreover, povidone also promotes the dissolution of APIs. For example, the drug release was faster in paracetamol tablets with 4% povidone K90 compared to tablets with gelatin or hydroxypropyl methylcellulose (HPMC) as binder (Jun, Kim, & Kim, 1989). It has been shown that PVP was more efficient than HPMC owing to the lower work of cohesion and adhesion of HPMC. It could be further attributed to the better adhesion of PVP, especially to hydrophilic surfaces. Using PVP solution as granulating agent, it was observed that the addition of MCC as an insoluble excipient to a lactose-based formulation led to increase in solvent requirement and produced larger granules.Polyvinylpyrrolidone (PVP), commonly called polyvidone or povidone, is a water-soluble polymer made from the monomer N-vinylpyrrolidone [87,88]. Dry PVP is a light flaky hygroscopic powder and readily absorbs up to 40% of water by its weight. In solution, it has excellent wetting properties and readily forms films, which makes it good as a coating or an additive to coatings.The PVP was used as a blood plasma expander for trauma victims. It is used as a binder in many pharmaceutical tablets and it simply passes through the body when it is administered orally [89]. However, autopsies have found that crospovidone does contribute to pulmonary vascular injury in substance abusers who have injected pharmaceutical tablets intended for oral consumption [90]. PVP added to iodine forms a complex called povidone-iodine that possesses disinfectant properties. This complex is used in various products like solutions, ointment, pessaries, liquid soaps, and surgical scrubs. It is known under the trade name Betadine and Pyodine. It is used in pleurodesis (fusion of the pleura because of incessant pleural effusions). For this purpose, povidone-iodine is equally effective and safe as talc and may be preferred because of easy availability and low cost [91]. It is used as an aid for increasing the solubility of drugs in liquid and semiliquid dosage forms (syrups and soft gelatin capsules) and as an inhibitor of recrystallization.The protein of interest is excised from the transfer membrane and treated with polyvinylpyrrolidone to block binding of the enzyme to the membrane. After cutting the blot into small pieces, digestion buffer containing trypsin is added and the incubation is carried out at 37°C. The addition of calcium ions to the digestion buffer is critical to suppress trypsin autolysis. The use of phosphate buffers is avoided as phosphate catalyzes the formation of pyroglutamic acid from any N-terminal glutamines leading to blocked fragments (8). The concentration of trypsin is kept high by minimizing the reaction volume. We use 1 µ g of trypsin in a total digestion volume of 30 µl. At lower enzyme concentrations the reaction may not go to completion; at higher enzyme levels, extraneous autolysis products may develop. The amounts of each fragment released into the digestion buffer can vary. Small hydrophilic peptides are more likely to be released than larger, hydrophobic ones. Experiments with known amounts of protein bound to transfer membranes indicate that approximately 30% of the expected amount can be recovered in the supernatant. Because the area of membrane should be minimized, it is desirable to start with a sharp protein band (>100 pmol/cm2).First nanoparticle therapeutics can be tracked back to 1950s when Jatzkewitz and colleagues synthesized a polyvinylpyrrolidone–mescalin conjugate which had a significantly extended half-life in the blood circulation.Immediate allergic reactions to povidone–iodine are rare and often overlooked, as it is difficult to diagnose. Polyvinylpyrrolidone is thought to play a mechanistic role. The usefulness of the histamine release test for diagnosing polyvinylpyrrolidone allergy has been studied in a single case . PVP polymers are available in several viscosity grades, ranging from low to high molecular weight. This range, coupled with solubility in aqueous and organic solvent systems combined with its nontoxic character, are some of the properties that gives PVP polymers great flexibility across multiple applications. The industrial applications of PVP polymers include, for example, in adhesives to improve strength and toughness; in paper manufacture to increase strength and as a coating resin; and in synthetic fibers to improve dye receptivity. PVP polymers are also widely employed in inks, imaging, lithography, detergents and soaps, the textile, ceramic, electrical and metallurgical industries and as a polymerization additive.PVP polymers are supplied in various viscosity grades as a powder and/or aqueous solution. The full line of PVP polymers are also available for personal care applications such as film forming, emulsion stabilization and colorant dispersion.also offers pharmaceutical and agriculture grades of PVP polymer; our Plasdone™ and Polyplasdone™ polymer products are used in the pharmaceutical industry, Agrimer™ polymers are used by the Agriculture industry.There have been many studies that have been devoted to the determination of the molecular weight of PVP polymer. The low molecular weight polymers have narrower distribution curves of molecular entities than the high molecular weight compounds. Some of the techniques for measuring the molecular weight of various PVP polymer products are based on measuring sedimentation, light scattering, osmometry, NMR spectroscopy, ebullimometry, and size exclusion chromatography for determining absolute molecular weight distribution. By the use of these methods, any one of three molecular weight parameters can be measured, namely the number average (Mn), viscosity average (Mv), and weight average (Mw). Each of these characteristics can yield a different answer for the same polymer as illustrated by using these measurement techniques in the analysis of the same PVP K-30 polymer sample. The following results are reported: Number average (Mn) – 10,000 Viscosity average (Mv) – 40,000 Weight average (Mw) – 55,000 Therefore, in any review of the literature, one must know which molecular average is cited. Conventionally, molecular weights are expressed by their “K-values,” which are derived from relative viscosity measurements.The K-value accepted for PVP polymer by pharmacopoeias and other authoritative bodies worldwide is measured by the viscosity technique and calculated by the use of Fikentscher’s equation. In an aqueous solution PVP K-15 and PVP K-30 polymer, particularly in concentrations below 10%, have little effect on viscosity, whereas K-60 and K-90 considerably influence flow propertiesPVP polymer solution viscosity does not change appreciably over a wide pH range, but increases in concentrated HCI. Strong caustic solutions precipitate the polymer, but this precipitate solution redissolves on dilution with waterThe densities of PVP polymer water solutions are only slightly changed despite a significant increase in the concentration of PVP K-30 polymerThe effect of temperature and concentration on viscosity is shown in Figures 2 and 3 for PVP K-30 and K-90 polymer respectively. Any possible effect of high temperatures and concentrations on finished formulations should be determined experimentally.PVP polymer is readily soluble in cold water and the concentration is limited only by viscosity. It is possible to prepare free-flowing solutions of PVP K-30 polymer in concentrations up to 60% with only moderate effect on density. PVP K-60 and K-90 polymer are available commercially as 45 and 20 percent aqueous solutions, respectively. Roughly 0.5 mol water per monomer unit is associated with the polymer molecule in solution. This is of the same order of magnitude as the hydration for various proteins reported in the literature. PVP K-30 polymer is also freely soluble in many organic solvents, including alcohols, some chlorinated compounds such as chloroform, methylene chloride and ethylene dichloride,nitroparaffins, and amines. It is essentially insoluble in hydrocarbons, ethers, some chlorinated hydrocarbons, ketones and esters. Dilute solutions of PVP polymer in hydrocarbons may be prepared by the use of a cosolvent, e.g., butanol, N-methyl-2-pyrrolidone, or nonylphenol. Clear 3-5% PVP polymer solutions in aliphatic hydrocarbons may be readily prepared by adding the hydrocarbon to a butyl alcohol solution of the polymer. In oil-based products, solubilization in an alkylphenol, e.g., cetyl- or nonylphenol, is useful. The alkylphenol is first heated to about 100°C and the PVP polymer added slowly with stirring. Then the temperature may be raised to approximately 200°C to accelerate solution.Dried unmodified films of PVP polymer are clear, transparent, Glossy, and hard. Appearance does not vary when films are cast from different solvent systems, such as water, ethanol, chloroform, or ethylene dichloride. Compatible plasticizers may be added without affecting clarity or luster of the film. Moisture taken up from the air by PVP polymer can also act as a plasticizer. Among the several commercial modifiers that may be used in concentrations of 10-50% (based on PVP polymer) to control tack and/or brittleness or to decrease hygroscopicity are: carboxymethylcellulose cellulose acetate cellulose acetate propionate dibutyl tartrate diethylene glycol dimethyl phthalate 2-ethylhexanediol-1, 3 glycerin glycerylmonoricinoleate lgepal C0-430 (Solvay) oleyl alcohol Resoflex R-363 (Broadview Technologies) shellac sorbitol Carboxymethylcellulose, cellulose acetate, cellulose acetate propionate, and shellac effectively decrease tackiness. Dimethyl phthalate is less effective, whereas glycerin, diethylene glycol, and sorbitol increase tackiness. Films essentially tack-free over all ranges of relative humidity may be obtained with 10% arylsulfonamide-formaldehyde resin. In comparative tests for plasticity at 33% relative humidity, PVP polymer films containing 10% diethylene glycol show an “elongation at break” twice that of PVP polymer films containing 10% glycerin, polyethylene glycol 400, sorbitol, or urea, and four times that of PVP polymer films containing 10% ethylene glycol, dimethyl phthalate. At 70% relative humidity, 25% sorbitol and 25% dimethylphthalate may be used successfully.PVP polymer shows a high degree of compatibility, both in solution and film form, with most inorganic salt solutions and with many natural and synthetic resins, as well as with other chemicals (Table VIII). At 25°C the addition of 100 ml of a 10% solution of any of the following salts to 10% PVP K-30 polymer aqueous solution (i.e., 10 parts of the test salt to 1 part of PVP polymer) does not change the appearance of the solution: aluminum potassium sulfate aluminum sulfate ammonium chloride ammonium sulfate barium chloride calcium chloride chromium sulfate copper sulfate ferric chloride magnesium chloride mercuric acetate nickel nitrate lead acetate potassium chloride potassium sulfate potassium dichromate sodium bicarbonate** sodium chloride sodium nitrate sodium phosphate (primary) sodium pyrophosphate sodium sulfate sodium sulfite sodium thiosulfate silver nitrate zinc sulfate **200 ml if a 5% solution Small amounts of PVP polymer effectively stabilize emulsions, dispersions, and suspensions. Even lyophobic colloids, which exist without significant affinity for the medium, can be protected by PVP polymer. The polymer is adsorbed in a thin molecular layer on the surface of the individual colloidal particles to prevent contact and overcome any tendency to form a continuous solid phase. The best viscosity grade to use depends on the application. In some cases, the lower molecular weight polymers, PVP K-15 polymer or PVP K-30 polymer, are more efficient than high molecular weight material. For example, PVP K-15 polymer is particularly effective as a dispersant for carbon black and lowbulk density solids in aqueous media. It is used in detergent formulations to prevent soil redeposition on synthetic fibers and as a protective colloid for certain pigments. In viscous systems, on the other hand, PVP K-90 polymer is most suitable, e.g., as a dispersant for titanium dioxide or organic pigments and latex polymers in emulsion paints. PVP K-90 polymer is preferred as the protective colloid in the suspension polymerization of styrene to generate the desired particle size.PVP polymers form molecular adducts with many other substances. This can result in a solubilizing action in some cases or in precipitation in others. PVP polymer crosslinks with polyacids like polyacrylic or tannic acid to form complexes which are insoluble in water or alcohol but dissolve in dilute alkali. Gantrez™ AN methyl vinyl ether/maleic anhydride copolymer, will also insolubilize PVP polymer when aqueous solutions of polymers are mixed in approximately equal parts at low pH. An increase in pH will solubilize the complex. Ammonium persulfate will gel PVP polymer in 30 minutes at about 90°C. These gels are not thermoreversible and are substantially insoluble in large amounts of water or salt solution. PVP polymer powder can be stored under ordinary conditions without undergoing decomposition or degradation. However, since the powder is hygroscopic, suitable precautions should be taken to prevent excessive moisture pickup. Bulk polymer is supplied in tied polyethylene bags enclosed in fiber packs. When not in use, the polyethylene bag should be kept closed at all times in the covered container. On PVP polymer films, moisture acts as a plasticizer. These films are otherwise chemically stable. The equilibrium water content of PVP polymer solid or films varies in a linear fashion with relative humidity and is equal toapproximately one-third the relative humidity. Samples of dried, powdered PVP polymer, subjected to 20, 52, and 80 percent relative humidity until equilibrium is reached, show a 10, 19, and 31 percent moisture weight gain, respectively. Exposure to extreme elevated temperatures should be avoided, though PVP polymer powder is quite stable when heated. Some darkening in color and decreased water solubility are evident on heating in air at 150°C. However, PVP polymer appears to be quite stable when heated repeatedly at 110-130°C for relatively short intervals. Aqueous PVP polymer is stable for extended periods if protected from molds. However, appropriate tests should be made with finished products containing PVP polymer before deciding on a preservative. Steam sterilization (15 lb. pressure for 15 min.) can also be used and this treatment does not appear to change the properties of the solutions. The PVP polymer has no buffering power, and substantial changes in the pH of solutions are observed upon addition of small amounts of acids or bases. For example, the pH of 100 ml of 3.5% PVP K-30 polymer solution is raised from pH 4 to pH 7 by the addition of 1-2 ml 0.1 N sodium hydroxide.Polyvinylpyrrolidone is widely used in a broad variety of industries. This is due to its unique physical and chemical properties, particularly because of its good solubility in both water and many organic solvents, its chemical stability, its affinity to complex both hydrophobic and hydrophilic substances and its nontoxic character. Several hundreds of papers have been published describing the advantages of using PVP polymer in formulas for the following product areas. Polyvinylpyrrolidone, also known as povidone or PVP, is used in the pharmaceutical industry as a synthetic polymer vehicle for dispersing and suspending drugs. It has multiple uses, including as a binder for tablets and capsules, a film former for ophthalmic solutions, to aid in flavoring liquids and chewable tablets, and as an adhesive for transdermal systems. Povidone has the molecular formula of (C6H9NO)n and appears as a white to slightly off-white powder. Povidone formulations are widely used in the pharmaceutical industry due to their ability to dissolve in both water and oil solvents. The k number refers to the mean molecular weight of the povidone. Povidones with higher K-values (i.e., k90) are not usually given by injection due to their high molecular weights. The higher molecular weights prevent excretion by the kidneys and lead to accumulation in the body. The best-known example of povidone formulations is povidone-iodine, an important disinfectant. PVP-Polyvinylpyrrolidone is a nonionic water-soluble polymer and can be applied in a variety of fields-of-use owing to following advantageous characteristics. Good solubility in water as well as various organic solvents Good affinity to various polymers and resins High hygroscopicity Good film formation property Good adhesiveness to various substrates Good chelate / complex formation property Polyvinylpyrrolidone is used as an emulsifier and disintegrant for solution polymerization; also for production of membranes, such as dialysis and water purification filters; as an aid for increasing the solubility of drugs in liquid and semi-liquid dosage forms (syrups, soft gelatine capsules) and as an inhibitor of recrystallisation. Complexes with phenolics and alkaloids for their removal from plant samples, thus preventing their modification of proteins and any interference they may cause in spectrophotometric determinations of protein content. This is also reported to improve stability of enzymes. PVP (polyvinylpyrrolidone) is a large polymer that associates with the particle surface through Van der Waals forces and metal ligand charge transfer. The 40 kDa PVP molecule is not easily displaced by other molecules and offers excellent steric stability. It’s a great choice for particles that may be exposed to a broad range of salt, pH, and solvent conditions. PVP is made from the monomer n-vinylpyrrolidone. At nanoComposix we typically use a 40 kDa version that helps prevent particles from directly contacting and aggregating when solution conditions change or when the particles are dried down onto a substrate or thin film. Polyvinylpyrrolidone is found in a lot of places where you wouldn't expect to find polymers. What kind places? For example, polyvinylpyrrolidone was the main ingredient in the first really successful hairsprays in the early 1950s. That's right, the eventual giant beehive hairdos that followed in the sixties owed their existence to polyvinylpyrrolidone. This polymer worked as a hairspray because it was soluble in water. This meant it could be rinsed out when you wash your hair. But its affinity for water gave it a drawback. Polyvinylpyrrolidone tended to adsorb water out of the air, giving hair that tacky look that was so common in the sixties. This was fixed with the help of another polymer, a silicone called polydimethylsiloxane. To understand how this silicone made a better hairspray, it helps to understand how the hairspray works in the first place. When you spray it on, the polyvinylpyrrolidone forms a thin coating on the hair. This coating is stiff and keeps the hair from moving around. Polyvinylpyrrolidone (PVP) is a water-soluble polymer obtained by polymerization of monomer N-vinylpyrrolidone. PVP is an inert, non-toxic, temperature-resistant, pH-stable, biocompatible, biodegradable polymer that helps to encapsulate and cater both hydrophilic and lipophilic drugs. These advantages enable PVP a versatile excipient in the formulation development of broad conventional to novel controlled delivery systems. PVP has tunable properties and can be used as a brace component for gene delivery, orthopedic implants, and tissue engineering applications. Based on different molecular weights and modified forms, PVP can lead to exceptional beneficial features with varying chemical properties. Graft copolymerization and other techniques assist PVP to conjugate with poorly soluble drugs that can inflate bioavailability and even introduces the desired swelling tract for their control or sustained release. The present review provides chemistry, mechanical, physicochemical properties, evaluation parameters, dewy preparation methods of PVP derivatives intended for designing conventional to controlled systems for drug, gene, and cosmetic delivery. The past and growing interest in PVP establishes it as a promising polymer to enhance the trait and performance of current generation pharmaceutical dosage forms. Furthermore, the scrutiny explores existing patents, marketed products, new and futuristic approaches of PVP that have been identified and scope for future development, characterization, and its use. The exploration spotlights the importance and role of PVP in the design of Povidone-iodine (PVP–I) and clinical trials to assess therapeutic efficacy against the COVID-19 in the current pandemic scenario.
POLYVINYLPYRROLIDONE
CAS Number : 9003-39-8
IUPAC name: 1-ethenylpyrrolidin-2-one
DESCRIPTION:

Polyvinylpyrrolidone (PVP), also commonly called polyvidone or povidone, is a water-soluble polymer made from the monomer N-vinylpyrrolidone.
PVP is available in a range of molecular weights and related viscosities, and can be selected according to the desired application properties

Polyvinylpyrrolidone (PVP, Polyvidone, Povidone) is an inert, water-soluble, non-toxic, temperature-resistant, pH-stable, biocompatible, biodegradable polymer that helps to encapsulate and cater both hydrophilic and lipophilic drugs.
Polyvinylpyrrolidone has been widely tested and used as an effective wound healing accelerator.


Phenolics bind to proteins and DNA through hydrogen bonds immediately after plant cells are lysed and effect their properties and successful extraction, therefore Polyvinylpyrrolidone is important to use phenolic inhibitors.

Polyvinylpyrrolidone (PVP), also commonly called polyvidone or povidone, is a water-soluble polymer made from the monomer N-vinylpyrrolidone that binds polyphenols.
PVP is available in a variety of molecular weights. with the smaller molecular weights capable of binding to proteins.
For use with proteins, it is recommended to start with 2-4% 40KD PVP.
Depending on the specific phenolics in the plant tissue, the molecular weight of PVP will need to be optimized.

Different molecular weights bind certain phenolics better than others, so PVP does not bind all phenolics universally.

Polyvinylpyrrolidone, also known as povidone or PVP, is used in the pharmaceutical industry as a synthetic polymer vehicle for dispersing and suspending drugs.
Polyvinylpyrrolidone has multiple uses, including as a binder for tablets and capsules, a film former for ophthalmic solutions, to aid in flavoring liquids and chewable tablets, and as an adhesive for transdermal systems.

Povidone has the molecular formula of (C6H9NO)n and appears as a white to slightly off-white powder.
Povidone formulations are widely used in the pharmaceutical industry due to their ability to dissolve in both water and oil solvents.


The k number refers to the mean molecular weight of the povidone.
Povidones with higher K-values (i.e., k90) are not usually given by injection due to their high molecular weights.
The higher molecular weights prevent excretion by the kidneys and lead to accumulation in the body.
The best-known example of povidone formulations is povidone-iodine, an important disinfectant









USES OF POLYVINYLPYRROLIDONE:

Medical:
Polyvinylpyrrolidone is used as a binder in many pharmaceutical tablets; Polyvinylpyrrolidone simply passes through the body when taken orally.

PVP added to iodine forms a complex called povidone-iodine that possesses disinfectant properties.

Polyvinylpyrrolidone is used in various products like solutions, ointment, pessaries, liquid soaps and surgical scrubs.
Polyvinylpyrrolidone is known under the trade names Pyodine and Betadine, among a plethora of others.

Polyvinylpyrrolidone is used in pleurodesis (fusion of the pleura because of incessant pleural effusions).
For this purpose, povidone iodine is equally effective and safe as talc, and may be preferred because of easy availability and low cost.

PVP is used in some contact lenses and their packaging solutions.
Polyvinylpyrrolidone reduces friction, thus acting as a lubricant, or wetting agent, built into the lens. Examples of this use include Bausch & Lomb's Ultra contact lenses with MoistureSeal Technology and Air Optix contact lens packaging solution (as an ingredient called "copolymer 845").

PVP is used as a lubricant in some eye drops, e.g. Bausch & Lomb's Soothe.

PVP was used as a plasma volume expander for trauma victims after the 1950s.
Polyvinylpyrrolidone is not preferred as volume expander due to its ability to provoke histamine release and also interfere with blood grouping.

Autopsies have found that crospovidone (PVPP) contributes to pulmonary vascular injury in substance abusers who have injected pharmaceutical tablets intended for oral consumption.
The long-term effects of crospovidone or povidone within the lung are unknown.

Technical:
PVP is also used in many technical applications:
Polyvinylpyrrolidone is used as a special additive for batteries, ceramics, fiberglass, inks, and inkjet paper, and in the chemical-mechanical planarization process
Polyvinylpyrrolidone is used as an emulsifier and disintegrant for solution polymerization
Polyvinylpyrrolidone is used to increase resolution in photoresists for cathode ray tubes (CRT)
Polyvinylpyrrolidone is used in aqueous metal quenching

Polyvinylpyrrolidone is used for production of membranes, such as dialysis and water purification filters
Polyvinylpyrrolidone is used as a binder and complexation agent in agricultural applications such as crop protection, seed treatment and coating
Polyvinylpyrrolidone is used as a thickening agent in tooth whitening gels

Polyvinylpyrrolidone is used as an aid for increasing the solubility of drugs in liquid and semi-liquid dosage forms (syrups, soft gelatine capsules) and as an inhibitor of recrystallisation
Polyvinylpyrrolidone is used as an additive to Doro's RNA extraction buffer
Polyvinylpyrrolidone is used as a liquid-phase dispersion enhancing agent in DOSY NMR
Polyvinylpyrrolidone is used as a surfactant, reducing agent, shape controlling agent and dispersant in nanoparticle synthesis and their self-assembly
Polyvinylpyrrolidone is used as a stabilizing agent in all inorganic solar cells


Other uses:
PVP binds to polar molecules exceptionally well, owing to its polarity.
This has led to its application in coatings for photo-quality ink-jet papers and transparencies, as well as in inks for inkjet printers.

PVP is also used in personal care products, such as shampoos and toothpastes, in paints, and adhesives that must be moistened, such as old-style postage stamps and envelopes.
Polyvinylpyrrolidone is used has also been used in contact lens solutions and in steel-quenching solutions.
PVP is the basis of the early formulas for hair sprays and hair gels, and still continues to be a component of some.

As a food additive, PVP is a stabilizer and has E number E1201. PVPP (crospovidone) is E1202.
Polyvinylpyrrolidone is used is also used in the wine industry as a fining agent for white wine and some beers.

In in-vitro fertilisation laboratories, polyvinylpyrrolidone is used to slow down spermatozoa in order to capture them for e.g. ICSI.

In molecular biology, PVP can be used as a blocking agent during Southern blot analysis as a component of Denhardt's buffer.
It is also exceptionally good at absorbing polyphenols during DNA purification. Polyphenols are common in many plant tissues and can deactivate proteins if not removed and therefore inhibit many downstream reactions like PCR.

In microscopy, PVP is useful for making an aqueous mounting medium.

PVP can be used to screen for phenolic properties, as referenced in a 2000 study on the effect of plant extracts on insulin production


PROPERTIES OF POLYVINYLPYRROLIDONE:
PVP is soluble in water and other polar solvents.
For example, it is soluble in various alcohols, such as methanol and ethanol, as well as in more exotic solvents like the deep eutectic solvent formed by choline chloride and urea (Relin).
When dry Polyvinylpyrrolidone is a light flaky hygroscopic powder, readily absorbing up to 40% of its weight in atmospheric water.
In solution, Polyvinylpyrrolidone has excellent wetting properties and readily forms films.

This makes Polyvinylpyrrolidone good as a coating or an additive to coatings.

A 2014 study found fluorescent properties of PVP and its oxidized hydrolyzate.
Polyvinylpyrrolidone (PVP) is a nonionic, water-soluble polymer with the following features.
Polyvinylpyrrolidone can be suitable for the usage of various applications and fields.

• Soluble in various solvents (e.g.: water, alcohol, amide and chlorineated solvents)
• Heat Resistance (Tg=160-170℃)
• Highly hygroscopicity
• Good film-forming properties
• Adhesion
• Ability to form complexes


HISTORY OF POLYVINYLPYRROLIDONE:
PVP was first synthesized by BASF chemist, Walter Reppe, and a patent was filed in 1939 for one of the derivatives of acetylene chemistry.
PVP was initially used as a blood plasma substitute and later in a wide variety of applications in medicine, pharmacy, cosmetics and industrial production.
BASF continues to make PVP, including a pharmaceutical portfolio under the brand name of Kollidon.


CHEMICAL AND PHYSICAL PROPERTIES OF POLYVINYLPYRROLIDONE:

Chemical formula: (C6H9NO)n
Molar mass: 2,500 – 2,500,000 g•mol−1
Appearance: white to light yellow, hygroscopic, amorphous powder
Density :1.2 g/cm3
Melting point: 150 to 180 °C (302 to 356 °F; 423 to 453 K) (glass temperature)
Molecular Weight :40,000 (Avg.)
Molecular Formula: (C6H9NO)n
Storage: Room Temperature
Purity: min. 99.0%
Heavy metals as (Pb): <0.001%
pH (5%, water): 3.0-7.0
CAS #: 9003-39-8
Density: 1.23-1.29 g/mL (lit.)
Molecular Formula: (C6H9NO)x
Molecular Weight: avg. 10,000
Appearance (Colour): White to off - white
Appearance (Form): Crystalline powder
Solubility (Turbidity): 10% aq. solution Clear
Nitrogen content (N): 11.5 - 12.5%
pH (5% aq. solution): 3.0 - 7.0
K-value: ~ 30
Auto-ignition temperature: >400 °C
Decomposition temperature: >130 °C
Physical state: solid
Form: powder
Colour: white - cream
Odour: faintly perceptible
Melting point/freezing point: 130 °C
Flammability: This material is combustible, but will not ignite readily
Lower and upper explosion limit: 15 g/m³ (LEL)
Personal Protective Equipment: Eyeshields, Gloves, respirator filter
pH: 4
Melting point: >300 °C
Boiling point: 90-93 °C
Density: 1,69 g/cm3
storage temp.: 2-8°C
solubility: H2O: soluble100mg/mL
form: powder
color: White to yellow-white
PH: 3.0-5.0
Water Solubility: Soluble in water.
Sensitive: Hygroscopic
Merck: 14,7697
Stability: Stable. Incompatible with strong oxidizing agents. Light sensitive. Hygroscopic.
Solubility: Soluble in water (> 100 mg/mL), methanol, ethanol, alcohol, chloroform and glycerol, acetic acid; insoluble in dimethyl ether, ethyl acetate, acetone, toluene, xylene, mineral oil, carbon tetrachloride.
Usage Statement: Unless specified otherwise, MP Biomedical's products are for research or further manufacturing use only, not for direct human use.

SAFETY INFORMATION ABOUT POLYVINYLPYRROLIDONE:

First aid measures:
Description of first aid measures:
General advice:
Consult a physician.
Show this safety data sheet to the doctor in attendance.
Move out of dangerous area:

If inhaled:
If breathed in, move person into fresh air.
If not breathing, give artificial respiration.
Consult a physician.
In case of skin contact:
Take off contaminated clothing and shoes immediately.
Wash off with soap and plenty of water.
Consult a physician.

In case of eye contact:
Rinse thoroughly with plenty of water for at least 15 minutes and consult a physician.
Continue rinsing eyes during transport to hospital.

If swallowed:
Do NOT induce vomiting.
Never give anything by mouth to an unconscious person.
Rinse mouth with water.
Consult a physician.

Firefighting measures:
Extinguishing media:
Suitable extinguishing media:
Use water spray, alcohol-resistant foam, dry chemical or carbon dioxide.
Special hazards arising from the substance or mixture
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas

Advice for firefighters:
Wear self-contained breathing apparatus for firefighting if necessary.
Accidental release measures:
Personal precautions, protective equipment and emergency procedures
Use personal protective equipment.

Avoid breathing vapours, mist or gas.
Evacuate personnel to safe areas.

Environmental precautions:
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Methods and materials for containment and cleaning up:
Soak up with inert absorbent material and dispose of as hazardous waste.
Keep in suitable, closed containers for disposal.

Handling and storage:
Precautions for safe handling:
Avoid inhalation of vapour or mist.

Conditions for safe storage, including any incompatibilities:
Keep container tightly closed in a dry and well-ventilated place.
Containers which are opened must be carefully resealed and kept upright to prevent leakage.
Storage class (TRGS 510): 8A: Combustible, corrosive hazardous materials

Exposure controls/personal protection:
Control parameters:
Components with workplace control parameters
Contains no substances with occupational exposure limit values.
Exposure controls:
Appropriate engineering controls:
Handle in accordance with good industrial hygiene and safety practice.
Wash hands before breaks and at the end of workday.

Personal protective equipment:
Eye/face protection:
Tightly fitting safety goggles.
Faceshield (8-inch minimum).
Use equipment for eye protection tested and approved under appropriate government standards such as NIOSH (US) or EN 166(EU).

Skin protection:
Handle with gloves.
Gloves must be inspected prior to use.
Use proper glove
removal technique (without touching glove's outer surface) to avoid skin contact with this product.
Dispose of contaminated gloves after use in accordance with applicable laws and good laboratory practices.
Wash and dry hands.

Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
Splash contact
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
It should not be construed as offering an approval for any specific use scenario.

Body Protection:
Complete suit protecting against chemicals, The type of protective equipment must be selected according to the concentration and amount of the dangerous substance at the specific workplace.
Respiratory protection:
Where risk assessment shows air-purifying respirators are appropriate use a fullface respirator with multi-purpose combination (US) or type ABEK (EN 14387) respirator cartridges as a backup to engineering controls.

If the respirator is the sole means of protection, use a full-face supplied air respirator.
Use respirators and components tested and approved under appropriate government standards such as NIOSH (US) or CEN (EU).
Control of environmental exposure
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Stability and reactivity:
Chemical stability:
Stable under recommended storage conditions.
Incompatible materials:
Strong oxidizing agents:
Hazardous decomposition products:
Hazardous decomposition products formed under fire conditions.
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas.

Disposal considerations:
Waste treatment methods:
Product:
Offer surplus and non-recyclable solutions to a licensed disposal company.
Contact a licensed professional waste disposal service to dispose of this material.
Contaminated packaging:
Dispose of as unused product.


Synonyms
PVP
POVIDONE
POP
kollidon
PVP K-30
POLYVINYLPYRROLIDONE K 90
kollidon CL
K-30
KoVidone
PLASDONE

POLYVINYLPYRROLIDONE
Polyvinylpyrrolidone, also commonly called polyvidone or povidone, is a water-soluble polymer compound made from the monomer N-vinylpyrrolidone.
Polyvinylpyrrolidone is available in a range of molecular weights and related viscosities, and can be selected according to the desired application properties.
Polyvinylpyrrolidone is compatible with a wide range of hydrophilic and hydrophobic resins.

CAS: 9003-39-8
MF: CH4
MW: 16.04246
EINECS: 1312995-182-4

Povidone, also known as Polyvinylpyrrolidone or polyvidone, is a synthetic water-soluble polymer made from the monomer N-vinylpyrrolidone used as a binder in many pharmaceutical tablets and lubricant in eye drops.
Polyvinylpyrrolidone is also used in many technical applications with various roles as an adhesive, additive, and emulsifier.
When in complex with iodine, displays antiseptic properties where the iodine, a bactericidal component, mainly contributes to this effect, and Polyvinylpyrrolidone acts as a carrier.
Polyvinylpyrrolidone can be found in over-the-counter topical solutions, ointment, pessaries, liquid soaps and surgical scrubs.
The clinical effectiveness of on wound healing remains somewhat controversial, as Polyvinylpyrrolidone was demonstrated in a few clinical studies that the application of the compound in wounds was associated with impaired wound healing, reduced wound strength, or infection in open wounds.

Polyvinylpyrrolidone is soluble in various alcohols, such as methanol and ethanol, as well as in more exotic solvents like the deep eutectic solvent formed by choline chloride and urea (Relin).
When dry Polyvinylpyrrolidone is a light flaky hygroscopic powder, readily absorbing up to 40% of its weight in atmospheric water.
In solution, Polyvinylpyrrolidone has excellent wetting properties and readily forms films.
This makes Polyvinylpyrrolidone good as a coating or an additive to coatings.
Polyvinylpyrrolidone was first synthesized by BASF chemist Walter Reppe, and a patent was filed in 1939 for one of the derivatives of acetylene chemistry.
Polyvinylpyrrolidone was initially used as a blood plasma substitute and later in a wide variety of applications in medicine, pharmacy, cosmetics and industrial production.
BASF continues to make Polyvinylpyrrolidone, including a pharmaceutical portfolio under the brand name of Kollidon.
Polyvinylpyrrolidone, also known as povidone or PVP, is used in the pharmaceutical industry as a synthetic polymer vehicle for dispersing and suspending drugs.
Polyvinylpyrrolidone has multiple uses, including as a binder for tablets and capsules, a film former for ophthalmic solutions, to aid in flavoring liquids and chewable tablets, and as an adhesive for transdermal systems.
Polyvinylpyrrolidone is a polymer used as a pharmaceutical aid, complexing agent, and solubilizer.
Polyvinylpyrrolidone was used as a plasma volume expander for trauma victims.
Polyvinylpyrrolidone acts as diluent, solvent and cleaning agent in various kinds of industries.
Polyvinylpyrrolidone also acts as an adjuvant, emulsifier, filtering aid, tableting aid, thickener.

Polyvinylpyrrolidone is the cross-linked homopolymer of pure vinylpyrrolidone.
Polyvinylpyrrolidone is hygroscopic and free-flowing white or off-white powder.
Polyvinylpyrrolidone has a slight foul smell.
Polyvinylpyrrolidone is insoluble in common solvents such as water, ethanol and ether.
So Polyvinylpyrrolidone's molecule weight range can’t be measured.
However, Polyvinylpyrrolidone has ability to form complex with various kinds of substances (such as “Hu” class substance which can lead to the discoloration of a variety of wines and beverages discoloration).
Also Polyvinylpyrrolidone is easily to be removed after filtration because of its insolubility.

Polyvinylpyrrolidone is one of the three major pharmaceutical new excipients and can be used as the co-solvent of tablets, granules, and injection, as the glidant of capsules, as the dispersant agent of liquid preparations and the colorant, as the stabilizer of enzyme and heat sensitive drug, as the co-precipitating agent of poorly soluble drugs, and as the detoxicant of ophthalmic drugs and lubricants.
Polyvinylpyrrolidone is industrially used as expanded polystyrene additive, as the gelling agents for suspension polymerization, stabilizer, and fiber treating agents, paper processing aids, adhesives, and thickening agents.
Polyvinylpyrrolidone and its copolymers CAP is an important raw material of cosmetics, mainly used for hair retaining agent.
The film Polyvinylpyrrolidone formed in the hair is elastic and shiny, and has excellent carding property as well as being free of dust.
Adopting different category of resin can meet various kinds of relative humidity climatic conditions.
Therefore, Polyvinylpyrrolidone is an indispensable raw material in styling hair cream, hair gel, and mousse.
Polyvinylpyrrolidone can also be used for the cosmetics of skin moisturizing agents and the dispersants for grease based hair dying, also as foam stabilizers, and can improve the consistency of the shampoo.
Polyvinylpyrrolidone is the stabilizer of beer and juice which can improve its transparency, color, and flavor.

Polyvinylpyrrolidone Chemical Properties
Melting point: >300 °C
Boiling point: 90-93 °C
Density: 1,69 g/cm3
Storage temp.: 2-8°C
Solubility: H2O: soluble100mg/mL
Form: powder
Color: White to yellow-white
PH: 3.0-5.0
Water Solubility: Soluble in water.
Sensitive: Hygroscopic
Merck: 14,7697
Stability: Stable. Incompatible with strong oxidizing agents. Light sensitive. Hygroscopic.
InChI: InChI=1S/C8H15NO/c1-3-7(2)9-6-4-5-8(9)10/h7H,3-6H2,1-2H3
InChIKey: FAAHNQAYWKTLFD-UHFFFAOYSA-N
SMILES: N1(C(C)CC)C(=O)CCC1
IARC: 3 (Vol. 19, Sup 7, 71) 1987
EPA Substance Registry System: Polyvinylpyrrolidone (9003-39-8)

Uses
Polyvinylpyrrolidone binds to polar molecules exceptionally well, owing to its polarity.
This has led to Polyvinylpyrrolidones application in coatings for photo-quality ink-jet papers and transparencies, as well as in inks for inkjet printers.
Polyvinylpyrrolidone is also used in personal care products, such as shampoos and toothpastes, in paints, and adhesives that must be moistened, such as old-style postage stamps and envelopes.
Polyvinylpyrrolidone has also been used in contact lens solutions and in steel-quenching solutions.
Polyvinylpyrrolidone is the basis of the early formulas for hair sprays and hair gels, and still continues to be a component of some.
As a food additive, Polyvinylpyrrolidone is a stabilizer and has E number E1201.
Polyvinylpyrrolidone is also used in the wine industry as a fining agent for white wine and some beers.
In in-vitro fertilisation laboratories, Polyvinylpyrrolidone is used to slow down spermatozoa in order to capture them for e.g. ICSI.
In molecular biology, Polyvinylpyrrolidone can be used as a blocking agent during Southern blot analysis as a component of Denhardt's buffer.
Polyvinylpyrrolidone is also exceptionally good at absorbing polyphenols during DNA purification.
Polyphenols are common in many plant tissues and can deactivate proteins if not removed and therefore inhibit many downstream reactions like PCR.
In microscopy, Polyvinylpyrrolidone is useful for making an aqueous mounting medium.
Polyvinylpyrrolidone can be used to screen for phenolic properties, as referenced in a 2000 study on the effect of plant extracts on insulin production.

Although Polyvinylpyrrolidone is used in a variety of pharmaceutical formulations, it is primarily used in solid-dosage forms.
In tableting, Polyvinylpyrrolidone solutions are used as binders in wet-granulation processes.
Polyvinylpyrrolidone is also added to powder blends in the dry form and granulated in situ by the addition of water, alcohol, or hydroalcoholic solutions.
Polyvinylpyrrolidone is used as a solubilizer in oral and parenteral formulations, and has been shown to enhance dissolution of poorly soluble drugs from solid-dosage forms.
Polyvinylpyrrolidone solutions may also be used as coating agents or as binders when coating active pharmaceutical ingredients on a support such as sugar beads.
Polyvinylpyrrolidone is additionally used as a suspending, stabilizing, or viscosity-increasing agent in a number of topical and oral suspensions and solutions.
The solubility of a number of poorly soluble active drugs may be increased by mixing with Polyvinylpyrrolidone.

In the early 1950s, older, with shellac and oil-based hairspray had been rapidly replaced by Polyvinylpyrrolidone sprays which are still widely used until now.
Polyvinylpyrrolidone can form wet, transparent film on the hair which is shiny and has good lubrication effect.
Polyvinylpyrrolidone has good compatibility with a variety of good propellant and also has corrosion resistance.
Polyvinylpyrrolidone is widely used in hair styling, as the film former in combing products, as the creatinine and stabilizer of skin care lotions and creams, as the base stock material for eye and facial cosmetics and lipstick base, and also as hair dye dispersants and shampoo foam stabilizer.
Polyvinylpyrrolidone has detoxification effect and can reduce the irritation effects of other preparation on the skin and eyes.
Polyvinylpyrrolidone is also used as toothpaste detergents, gelling agents and antidotes. The main drawback of PVP is its sensitivity to moisture.
However, this issue can be tackled by using Polyvinylpyrrolidone's vinyl acetate copolymer in order to mitigate the effects of moisture and humidity.
In addition, Polyvinylpyrrolidone also has wide application in the pharmaceutical, beverage and textile industries.

In daily cosmetics, Polyvinylpyrrolidone and its copolymer has good dispersion property and filming property, and thus being able to be used as a setting lotion, hair spray and styling mousse, as opacifiers for hair care agents, as the stabilizer of shampoo foam, as wave styling agent and as the dispersants and affinity agents in hair dye.
Adding Polyvinylpyrrolidone to cream, sunscreen, and hair removal agent can enhance wetting and lubricating effect.
Taking advantage of the excellent properties of PVP such as surface activity, film-forming and non-irritating to the skin, no allergic reactions, etc., has broad prospects in Polyvinylpyrrolidones application in hair care and skin care products.
Polyvinylpyrrolidone of molecular weight 360,000 are often used as the clarifying agent of beer, vinegar, and grape wine.
Used as the fixing liquid for gas chromatography.
Polyvinylpyrrolidone is used as a colloidal stabilizer and clarifying agent for beer clarification.
Apply proper amount according the demands of production.
Polyvinylpyrrolidone can be used for pharmacy, aquaculture, and livestock disinfectant for the sterilization of the skin and mucous.

Preparation
N -Vinylpyrrolidone is water-soluble and is usually polymerized in aqueous solution at about 50C with ammonia and hydrogen peroxide.
The polymer is also water-soluble and is isolated by spray-drying.
Commercial grades of Polyvinylpyrrolidone have average molecular weights (Mv) ranging from about 10000 up to 360000.
The largest use of Polyvinylpyrrolidone is in cosmetic formulations, especially hair lacquers. In the latter applications, polyvinylpyrrolidone is the preferred film-former on account of good adhesion to hair, lustre of the film and ease of removal on washing.
The polymer is also used as a binder in pharmaceutical tablets.
Polyvinylpyrrolidone also finds use in the textile industry, particularly in colour stripping operations, where the great affinity of the polymer for dyestuffs is utilized.
An interesting application of Polyvinylpyrrolidone is in aqueous solution as a blood plasma substitute; such material was extensively used in Germany during the Second World War.

Production Methods
Polyvinylpyrrolidone is manufactured by the Reppe process.
Acetylene and formaldehyde are reacted in the presence of a highly active copper acetylide catalyst to form butynediol, which is hydrogenated to butanediol and then cyclodehydrogenated to form butyrolactone.
Pyrrolidone is produced by reacting butyrolactone with ammonia.
This is followed by a vinylation reaction in which pyrrolidone and acetylene are reacted under pressure.
The monomer, vinylpyrrolidone, is then polymerized in the presence of a combination of catalysts to produce Polyvinylpyrrolidone.
Polyvinylpyrrolidones crude product comes from the polymerization of vinylpyrrolidone under basic catalyst or the existence of N, N'-divinyl amidine and further cross-inking reaction.
Then use water, 5% acetic acid and 50% ethanol for reflux to until extract ≤50mg/kg (for over 3h).
The 30% to 60% aqueous solution of the purified 1-vinyl-2-pyrrolidone, in the presence of ammonia or amines and also with hydrogen peroxide as the catalyst, has cross-linking and homo-polymerization reaction at a temperature of 50 °C and subject to further purification to obtain the final product.

Biochemistry
Polyvinylpyrrolidone itself has no microbicidal activity.
Polyvinylpyrrolidone exhibits rapid, potent, broad-spectrum antimicrobial properties.

Synonyms
N-VINYL-2-PYRROLIDONE
88-12-0
1-vinylpyrrolidin-2-one
N-Vinylpyrrolidone
1-Vinyl-2-pyrrolidone
9003-39-8
1-Vinyl-2-pyrrolidinone
N-Vinyl-2-pyrrolidinone
Povidone
Vinylpyrrolidone
N-Vinylpyrrolidinone
1-ethenylpyrrolidin-2-one
2-Pyrrolidinone, 1-ethenyl-
1-Vinylpyrrolidone
Pvpp
Vinylbutyrolactam
Vinylpyrrolidinone
V-Pyrol
Luviskol
Plasdone
1-Vinylpyrrolidinone
25249-54-1
Vinyl-2-pyrrolidone
N-Vinyl pyrrolidone
1-Ethenyl-2-pyrrolidinone
N-Vinylpyrrolidone-2
1-Vinyl-2-pyrrolidinone, monomer
2-Pyrrolidinone, 1-vinyl-
PVP
NSC 10222
MPK 90
PVP 40
DTXSID2021440
143 RP
AT 717
1-vinyl-pyrrolidin-2-one
K 15
K 90
PVP-40
CHEBI:82551
MFCD00003197
NSC-10222
76H9G81541
DTXCID101440
WLN: /T5NVTJ AY*1*/
MFCD01076626
CAS-88-12-0
K 25
K 115
HSDB 7231
EINECS 201-800-4
BRN 0110513
CCRIS 8581
PovidonePVP
vinyl pyrrolidone
UNII-76H9G81541
N-vinyl-pyrrolidone
N -vinylpyrrolidinone
1-vinyl-2-pyrrolidon
POVIDONE MONOMER
VINYLBUTYLOLACTAM
N-vinylpyrrolidin-2-one
?N-Vinyl-2-pyrrolidone
N-vinyl pyrrolidin-2-one
N-vinyl-pyrrolidin-2-one
Crospovidone ~40,000
EC 201-800-4
SCHEMBL10869
WLN: T5NVTJ A1U1
PVP-K30
POVIDONE MONOMER [MI]
VINYL PYRROLIDONE (VP)
CHEMBL1878943
N-VINYL PYRROLIDONE [INCI]
1-Vinyl-2-pyrrolidone(stabilized with 200ppm Ammonium hydroxide)
NSC10222
Tox21_202462
Tox21_300073
NSC114022
NSC142693
NSC683040
Polyvinylpyrrolidone (MW ~40,000)
AKOS000119985
N-VINYL-2-PYRROLIDONE [IARC]
AT18510
CS-W020981
FG-0420
NSC-114022
NSC-142693
NSC-683040
NCGC00166252-01
NCGC00166252-02
NCGC00166252-03
NCGC00254200-01
NCGC00260011-01
2-PYRROLIDINONE, 1-ETHENYL- [HSDB]
FT-0608329
FT-0645144
FT-0655284
V0026
EN300-19745
C19548
A817742
A843417
Q420628
SR-01000944531
J-015891
SR-01000944531-1
W-100417
1-Vinyl-2-pyrrolidinone, SAJ first grade, >=99.0%
F8881-5579
Z104475034
3-CHLORO-5,6-DIFLUORO-1-BENZOTHIOPHENE-2-CARBONYLCHLORIDE
InChI=1/C6H9NO/c1-2-7-5-3-4-6(7)8/h2H,1,3-5H
1-Vinyl-2-pyrrolidinone, contains sodium hydroxide as inhibitor, >=99%
1-Vinyl-2-pyrrolidinone, Pharmaceutical Secondary Standard; Certified Reference Material
1-Vinyl-2-pyrrolidone (stabilized with N,N'-Di-sec-butyl-p-phenylenediamine)
POLYVINYLPYRROLIDONE (POLYVIDONE)

Polivinilpirolidon, also known as Polyvinylpyrrolidone (PVP) or simply Povidone, is a synthetic polymer that consists of repeating units of 1-vinyl-2-pyrrolidinone.
Polyvinylpyrrolidone (polyvidone) is widely used in various industries and applications due to its unique properties.
Polyvinylpyrrolidone (polyvidone) is water-soluble and forms clear, colorless to light yellow solutions.

CAS Number: 9003-39-8
EC Number: 500-633-1

Synonyms: Povidone, Polyvidone, Polyvinylpyrrolidinone, PVP, PVPP, Poly(N-vinylpyrrolidone), E1201, Crospovidone, N-Vinylpyrrolidone polymer, Povidonum, PVP K-30, PVP K-90, PVP K-25, PVP K-17, PVP K-15, PVP K-10, PVP K-60, PVP VA 64, PVP VA 73, PVP VA 55, PVP VA 37, PVP VA 64 copolymer, PVP VA 73 copolymer, PVP VA 64 vinyl acetate copolymer, Polyvidon, PVP-VA copolymer, N-vinyl-2-pyrrolidinone polymer, N-Vinylpyrrolidinone polymer, Povidon, Poly(vinyl pyrrolidone), PVP/VA, Poly(N-vinyl-2-pyrrolidone), Vinylpyrrolidone polymer, PVP iodine, PVP-I, PVP-Iodine, PVP Cl, PVP C30, PVP C15, PVP C17, PVP C10, PVP C25, PVP K 30, PVP K30, PVP K 15, PVP K 10, PVP K 17, PVP K 25, PVP K 90, PVP K90, PVP K 60, PVP K 64, PVP K 73, PVP K60, PVP K64, PVP K73, PVP/ethyl methacrylate, PVP/Ethyl Methacrylate, PVP/EMA, PVP/MA, PVP/Methacryloyl, PVP/Methacryloyl Propyltrimonium Chloride



APPLICATIONS


Polyvinylpyrrolidone (polyvidone) is widely used in the pharmaceutical industry as a binder in tablet formulations, improving the cohesion and disintegration properties of tablets.
Polyvinylpyrrolidone (polyvidone) serves as a film-forming agent in pharmaceutical coatings, providing a smooth and protective outer layer to tablets and capsules.

Polyvinylpyrrolidone (polyvidone) is utilized as a stabilizer and viscosity modifier in liquid dosage forms such as suspensions, syrups, and eye drops.
In cosmetics, PVP is found in hair care products like hairsprays and styling gels, where it acts as a film-former and fixative to enhance hair hold and manageability.

Polyvinylpyrrolidone (polyvidone) is employed in skin care products as a thickening agent and binder, contributing to the texture and stability of creams and lotions.
Polyvinylpyrrolidone (polyvidone) is used in sunscreen formulations to enhance the uniform distribution of UV filters and improve the product's water resistance.

Polyvinylpyrrolidone (polyvidone) is utilized in dentistry as a component of dental adhesives and oral care products to improve adhesive strength and moisture resistance.
In the food industry, PVP serves as a clarifying agent in beverages such as beer and wine, aiding in the removal of haze-causing substances.

Polyvinylpyrrolidone (polyvidone) is employed as a stabilizer and thickener in food products such as sauces, dressings, and condiments to improve texture and shelf life.
Polyvinylpyrrolidone (polyvidone) is used in the textile industry as a sizing agent to strengthen fibers and improve the weaving process, enhancing fabric durability and handling.
Polyvinylpyrrolidone (polyvidone) finds application in the paint and coatings industry as a dispersant and rheology modifier, improving pigment dispersion and coating performance.

In ink formulations, PVP acts as a binder and stabilizer, ensuring even distribution of pigments and enhancing print quality.
Polyvinylpyrrolidone (polyvidone) is used in adhesives and sealants to improve bonding strength, tackiness, and resistance to environmental factors.

Polyvinylpyrrolidone (polyvidone) is employed in agricultural formulations as a dispersant for agrochemicals, aiding in their uniform distribution and efficacy.
Polyvinylpyrrolidone (polyvidone) is utilized in the production of ceramics and composites as a binder and rheology modifier, facilitating shaping and enhancing material properties.

In the electronics industry, PVP is used in the fabrication of photoresists and as a protective coating for sensitive electronic components.
Polyvinylpyrrolidone (polyvidone) serves as a lubricant and anti-static agent in industrial applications, reducing friction and preventing static buildup on surfaces.

Polyvinylpyrrolidone (polyvidone) is employed in personal care products such as deodorants and antiperspirants to enhance product stability and skin feel.
Polyvinylpyrrolidone (polyvidone) is utilized in veterinary medicine as a component of wound dressings and topical formulations for pets and livestock.
Polyvinylpyrrolidone (polyvidone) is used in the production of membranes and filtration materials due to its ability to form porous structures and enhance separation efficiency.

Polyvinylpyrrolidone (polyvidone) finds application in the manufacturing of composite materials, where it acts as a binder to consolidate layers of different materials.
Polyvinylpyrrolidone (polyvidone) is employed in the textile industry to improve the dyeing process by enhancing dye penetration and color retention in fabrics.
Polyvinylpyrrolidone (polyvidone) is utilized in water treatment processes as a flocculant to aggregate and remove suspended particles from water sources.

Polyvinylpyrrolidone (polyvidone) finds niche applications in the development of biomedical devices and drug delivery systems due to its biocompatibility and controlled-release properties.
Polyvinylpyrrolidone (polyvidone) demonstrates versatility across a wide range of industries, contributing to product performance, innovation, and consumer satisfaction through its unique properties and applications.

Polyvinylpyrrolidone (polyvidone) is utilized in the cosmetics industry as a suspending agent in shampoos and conditioners, helping to evenly disperse insoluble ingredients.
Polyvinylpyrrolidone (polyvidone) serves as a binder and film-former in mascara formulations, improving adhesion to lashes and preventing flaking.

In skincare products, PVP is used as a pore minimizer and mattifying agent to reduce shine and improve skin appearance.
Polyvinylpyrrolidone (polyvidone) finds application in wound care as a component of adhesive bandages and wound dressings, providing gentle adhesion and moisture management.
Polyvinylpyrrolidone (polyvidone) is employed in ophthalmic solutions to enhance the solubility of active ingredients and improve eye drop formulations.

Polyvinylpyrrolidone (polyvidone) is used in the manufacture of contact lenses as a lubricating agent to improve comfort and wearability.
In the biotechnology and life sciences sector, PVP is utilized in protein purification processes as a stabilizer and cryoprotectant.

Polyvinylpyrrolidone (polyvidone) serves as a component in chromatography resins to improve separation efficiency and resolution of biomolecules.
Polyvinylpyrrolidone (polyvidone) is used in the formulation of lithographic inks for printing processes, contributing to ink stability and print quality.

Polyvinylpyrrolidone (polyvidone) is employed in the production of photographic films and papers as a coating agent to enhance image clarity and durability.
Polyvinylpyrrolidone (polyvidone) finds application in the textile industry as a dye transfer inhibitor in laundry detergents, preventing color bleeding during washing.
Polyvinylpyrrolidone (polyvidone) is utilized in the construction industry as an additive in cement and concrete formulations to improve workability and reduce cracking.

Polyvinylpyrrolidone (polyvidone) is used in the manufacturing of personal hygiene products such as wet wipes and sanitary napkins for its absorbent and moisture-retaining properties.
Polyvinylpyrrolidone (polyvidone) serves as a binder and suspension agent in ceramic glazes and slurries, facilitating uniform application and improving surface finish.
Polyvinylpyrrolidone (polyvidone) finds application in the production of carbon fiber materials as a sizing agent to enhance fiber adhesion and composite strength.

Polyvinylpyrrolidone (polyvidone) is utilized in the formulation of water-based paints and coatings as a rheology modifier to control viscosity and application properties.
Polyvinylpyrrolidone (polyvidone) is used in the agricultural industry as a dispersant and stabilizer for crop protection formulations, enhancing spray coverage and efficacy.

Polyvinylpyrrolidone (polyvidone) serves as a binder and carrier in the manufacture of solid fuel tablets and pellets for camping stoves and portable heaters.
Polyvinylpyrrolidone (polyvidone) finds application in the fabrication of medical devices such as catheters and surgical instruments for its biocompatibility and low friction properties.
Polyvinylpyrrolidone (polyvidone) is utilized in the production of adhesive tapes and labels as a tackifier to improve adhesion to various substrates.

Polyvinylpyrrolidone (polyvidone) is employed in the formulation of ceramic membranes for filtration applications, enhancing membrane integrity and performance.
Polyvinylpyrrolidone (polyvidone) finds niche applications in the aerospace industry for its ability to enhance composite materials and reduce weight in aircraft structures.

Polyvinylpyrrolidone (polyvidone) is used in the formulation of detergents and cleaning agents as a soil release agent to prevent dirt and stains from redepositing on fabrics.
Polyvinylpyrrolidone (polyvidone) serves as a binder and lubricant in the manufacture of graphite electrodes used in electric arc furnaces for steel production.
Polyvinylpyrrolidone (polyvidone) finds application in the production of adhesive films and tapes for medical and industrial applications, providing strong yet flexible bonding properties.

Polyvinylpyrrolidone (polyvidone) is valued for its ability to improve the adhesion and cohesion of materials, enhancing the performance of adhesives and sealants.
In the textile industry, PVP is used as a sizing agent to improve the strength and handle of fibers and fabrics.
Polyvinylpyrrolidone (polyvidone) is soluble in a wide range of solvents, facilitating its use in various processes from pharmaceutical formulations to industrial applications.

Its molecular weight can vary widely depending on the intended application, influencing its viscosity and film-forming capabilities.
Polyvinylpyrrolidone (polyvidone) is stable under normal storage conditions but may degrade if exposed to extreme temperatures or strong oxidizing agents.
Polyvinylpyrrolidone (polyvidone)'s molecular structure includes repeating units of vinylpyrrolidone, giving it its unique physical and chemical properties.

Polyvinylpyrrolidone (polyvidone) has found application in the development of advanced materials such as nanoparticles and drug delivery systems.
Its use in controlled-release formulations highlights its role in delivering drugs and active ingredients over extended periods.
Polyvinylpyrrolidone (polyvidone) is compatible with a variety of other polymers and additives, allowing for tailored formulations to meet specific performance requirements.

Due to its low toxicity and biocompatibility, PVP has been extensively studied for medical and pharmaceutical applications.
Polyvinylpyrrolidone (polyvidone) undergoes thorough testing for purity and quality to ensure consistency and safety in its various applications.
Polyvinylpyrrolidone (PVP) stands out as a versatile polymer with diverse applications across pharmaceuticals, cosmetics, food, textiles, and industrial sectors, contributing to product innovation and performance enhancement.



DESCRIPTION


Polivinilpirolidon, also known as Polyvinylpyrrolidone (PVP) or simply Povidone, is a synthetic polymer that consists of repeating units of 1-vinyl-2-pyrrolidinone.
Polyvinylpyrrolidone (polyvidone) is widely used in various industries and applications due to its unique properties.
Polyvinylpyrrolidone (polyvidone) is water-soluble and forms clear, colorless to light yellow solutions.

Polyvinylpyrrolidone, commonly known as PVP, is a water-soluble polymer that plays a crucial role in various industries.
Polyvinylpyrrolidone (polyvidone) is characterized by its clear to slightly yellowish appearance in solution and as a solid.
Polyvinylpyrrolidone (polyvidone) exhibits excellent film-forming properties, making it ideal for use in coatings and adhesives.

Polyvinylpyrrolidone (polyvidone) is inert and non-toxic, contributing to its widespread use in pharmaceuticals and cosmetics.
Polyvinylpyrrolidone (polyvidone) is hygroscopic, meaning it absorbs moisture from the environment, which can affect its handling and storage.

Polyvinylpyrrolidone (polyvidone) forms stable complexes with many substances, enhancing solubility and bioavailability in pharmaceutical formulations.
In the pharmaceutical industry, PVP serves as a binder in tablets and capsules, improving their mechanical strength and dissolution properties.
Polyvinylpyrrolidone (polyvidone) is also utilized as a stabilizer and suspending agent in liquid formulations such as oral solutions and topical preparations.

Polyvinylpyrrolidone (polyvidone)'s ability to form films and coatings extends to the cosmetics industry, where it is used in hair care products like hairsprays and styling gels.
Polyvinylpyrrolidone (polyvidone) acts as a protective colloid in emulsions and suspensions, preventing particle aggregation and ensuring product stability.
Polyvinylpyrrolidone (polyvidone) is employed in the production of wound dressings and medical adhesives due to its biocompatibility and non-irritating properties.

Polyvinylpyrrolidone (polyvidone) contributes to the clarity and viscosity control of beverages and is used as a clarifying agent in the brewing industry.
Polyvinylpyrrolidone (polyvidone)'s versatility extends to industrial applications, where Polyvinylpyrrolidone (polyvidone) serves as a dispersant in paints, coatings, and ink formulations.




PROPERTIES


Physical Properties:

Appearance: White or slightly yellowish powder or flakes.
Odor: Odorless.
Solubility: Soluble in water and polar solvents such as ethanol and methanol.
Melting Point: Decomposes before melting.
Density: Varies depending on molecular weight and form (typically 1.1 - 1.3 g/cm³).
Hygroscopicity: Hygroscopic, absorbs moisture from the air.
pH: Generally neutral (pH ~7 in aqueous solution).


Chemical Properties:

Chemical Formula: (C6H9NO)n, where n represents the number of repeating units.
Chemical Structure: Consists of repeating units of 1-vinyl-2-pyrrolidinone.
Functional Groups: Contains amide (-CONH-) and pyrrolidone ring structures.
Hydrogen Bonding: Forms hydrogen bonds with water and other polar molecules.
Stability: Stable under normal storage conditions; decomposes at high temperatures (>200°C).
Compatibility: Compatible with a wide range of polymers, solvents, and additives.
Biodegradability: Generally considered non-biodegradable but can be modified for specific applications.
Reactivity: Inert and non-reactive under normal conditions; does not undergo significant chemical reactions.
Solubility Parameter: Solubility increases with increasing molecular weight.
Complex Formation: Forms stable complexes with various organic and inorganic substances.



FIRST AID


Inhalation:

Move the affected person to fresh air.
If breathing difficulties persist, seek medical attention.
Provide artificial respiration if breathing has stopped.


Skin Contact:

Remove contaminated clothing and rinse affected skin with plenty of water.
Wash thoroughly with soap and water.
If irritation or rash develops, seek medical advice.


Eye Contact:

Rinse cautiously with water for several minutes, ensuring to remove contact lenses if present and easy to do.
Seek immediate medical attention if irritation persists.


Ingestion:

Rinse mouth with water.
Do not induce vomiting unless instructed by medical personnel.
Seek medical attention immediately.


General Advice:

Ensure adequate ventilation when handling PVP powder to avoid inhalation of dust.
Wear appropriate personal protective equipment (PPE), including gloves and safety goggles, when handling large quantities.
Avoid prolonged or repeated skin contact with PVP.
Keep containers tightly closed when not in use to prevent contamination.
Dispose of PVP waste according to local regulations and guidelines.


Notes for Medical Personnel:

Treatment should be symptomatic and supportive.
Provide respiratory support and monitor vital signs if necessary.
In case of eye contact, evaluate for corneal injury and provide appropriate treatment.


Emergency Contact:

In case of emergency, contact local emergency services or poison control center immediately.
POLYVINYLPYRROLIDONE (PVP K-30)
Polyvinylpyrrolidone (PVP K-30)'s molecular formula is (C6H9NO)n, and its CAS number is 9003-39-8.
Polyvinylpyrrolidone (PVP K-30) is white to off-white powder, odorless and tasteless, soluble in water and ethanol, insoluble in acetone or ether.


CAS Number: 9003-39-8
EC Number: 618-363-4
MDL Number: MFCD01076626
Molecular Formula : (C6H9NO)n


Polyvinylpyrrolidone (PVP K-30) is also known as povidone K30.
Polyvinylpyrrolidone (PVP K-30) is a non-ionic polymer.
Polyvinylpyrrolidone (PVP K-30) is a high molecular polymer polymerized by N-vinylpyrrolidone (NVP).


The average molecular weight of Polyvinylpyrrolidone (PVP K-30) is 40000.
Polyvinylpyrrolidone (PVP K-30), also commonly called polyvidone or povidone, is a water-soluble polymer made from the monomer N-vinylpyrrolidone.
Polyvinylpyrrolidone (PVP K-30) is hygroscopic, has good adhesive properties, has a stable pH value, and has the ability to form transparent films.


Polyvinylpyrrolidone (PVP K-30) is soluble in water and many organic solvents and it forms hard, transparent, glossy film.
Polyvinylpyrrolidone (PVP K-30) is compatible with most inorganic salts and many resins.
Polyvinylpyrrolidone (PVP K-30) stabilizes emulsions, dispersions and suspensions.


Polyvinylpyrrolidone (PVP K-30) exists in white powder or aqueous solution.
Polyvinylpyrrolidone (PVP K-30) readily dissolves in water, alcohol, amine and halohydrocarbon, but is not dissolved in acetone and aether etc..
Polyvinylpyrrolidone (PVP K-30)'s molecular formula is (C6H9NO)n, and its CAS number is 9003-39-8.


Polyvinylpyrrolidone (PVP K-30) is white to off-white powder, odorless and tasteless, soluble in water and ethanol, insoluble in acetone or ether.
PVP K30, also known as Polyvinylpyrrolidone (PVP K-30), is a synthetic polymer produced from the monomer vinylpyrrolidone.
Polyvinylpyrrolidone (PVP K-30) is a white, free-flowing powder with a high molecular weight.


Polyvinylpyrrolidone (PVP K-30) is water-soluble and has excellent film-forming and adhesive properties.
Polyvinylpyrrolidone (PVP K-30) is a low viscosity wet binder with a good balance between adhesive strength and ease of handling.
Polyvinylpyrrolidone (PVP K-30) is highly adhesive at low viscosity, thus offering the optimal balance between adhesive strength and ease of handling at 2-5% Polyvinylpyrrolidone (PVP K-30) or 4-7% Polyvinylpyrrolidone (PVP K-30).


Polyvinylpyrrolidone (PVP K-30) has excellent solubility in water and a range of organic solvents, and is supplied as a free flowing powder with spherical particle morphology.
Due to its non-ionic property, Polyvinylpyrrolidone (PVP K-30) does not bear any risk of interaction with ionic APIs.


Ingredient Depot's Polyvinylpyrrolidone (PVP K-30), Povidone, or Polyvinylpyrrolidone is a synthetic polymer known for its versatility.
Offered as a near-white, free-flowing powder, Polyvinylpyrrolidone (PVP K-30) is characterized by a faint, intrinsic scent and is essentially tasteless.
Its unique property of being soluble in both water and numerous organic solvents, combined with a robust binding capacity and the capability to form soluble complexes, makes Polyvinylpyrrolidone (PVP K-30) unparalleled among synthetic colloids.


Polyvinylpyrrolidone (PVP K-30) is produced through a polymerization process.
Polyvinylpyrrolidone (PVP K-30) acts as a stabiliser and film former, providing a strong and stiff hold.
Polyvinylpyrrolidone (PVP K-30) is a hygroscopic and amorphous polyvinylpyrrolidone polymer powder that shows excellent compatibility with acrylate thickeners.


Polyvinylpyrrolidone (PVP K-30) stabilises foam, emulsions, dispersions, and suspensions.
The usage for Polyvinylpyrrolidone (PVP K-30) depends on the nature of the formulation, thus there is no exact recommended concentration.
Polyvinylpyrrolidone (PVP K-30), also commonly called polyvidone or povidone, is a water-soluble polymer compound made from the monomer N-vinylpyrrolidone.


Polyvinylpyrrolidone (PVP K-30) is available in a range of molecular weights and related viscosities, and can be selected according to the desired application properties.
As a food additive, Polyvinylpyrrolidone (PVP K-30) is a stabilizer and has E number E1201.


Polyvinylpyrrolidone (PVP K-30), commonly known as polyvidone or povidone, is a water-soluble polymer created from the monomer N-vinylpyrrolidone.
Polyvinylpyrrolidone (PVP K-30) is a compound which has been widely tested and used in human and veterinary medicine as an effective wound healing accelerator and disinfectant when combined with iodine and other compounds.


Polyvinylpyrrolidone (PVP K-30) has the molecular formula of (C6H9NO)n and appears as a white to slightly off-white powder.
Povidone formulations are widely used in the pharmaceutical industry due to their ability to dissolve in both water and oil solvents.
The k number refers to the mean molecular weight of the povidone.


Povidones with higher K-values (i.e., k90) are not usually given by injection due to their high molecular weights.
The higher molecular weights prevent excretion by the kidneys and lead to accumulation in the body.
The best-known example of povidone formulations is povidone-iodine, an important disinfectant.


Polyvinylpyrrolidone (PVP K-30) is a water-soluble polymer of a non-ionic type that has a stable pH level.
Polyvinylpyrrolidone (PVP K-30) other names homopolymer of 1-Vinly-2-Pyrrolidone; polyvidone or povidone, is a water-soluble polymer made from the monomer N-vinylpyrrolidone.


Polyvinylpyrrolidone (PVP K-30) is a polymer that is amorphous and hygroscopic.
Polyvinylpyrrolidone (PVP K-30) has Good solubility in water as well as various organic solvents; Good affinity to various polymers and resins; High hygroscopicity; Good film formation property; Good adhesiveness to various substrates; Good chelate / complex formation property.


Polyvinylpyrrolidone (PVP K-30) is a hygroscopic polymer, supplied in a white to creamy white powder or flakes, ranging from low to high viscosity & low to high molecular weight, which is characterized by K Value.
Polyvinylpyrrolidone (PVP K-30)’s easily soluble in water and many other organic solvents, with excellent hygroscopicity, film-forming, adhesive, chemical stability, and toxicological safeness characteristics.


Polyvinylpyrrolidone (PVP K-30) is a polymer that is amorphous and hygroscopic.
Polyvinylpyrrolidone (PVP K-30) is a water-soluble polymer of a non-ionic type that has a stable pH level.
Polyvinylpyrrolidone (PVP K-30) is soluble in water and many organic solvents and it forms hard, transparent, glossy film.


Polyvinylpyrrolidone (PVP K-30) is compatible with most inorganic salts and many resins.
Polyvinylpyrrolidone (PVP K-30) stabilizes emulsions, dispersions and suspensions.
Polyvinylpyrrolidone (PVP K-30) appears as a white powder.


Polyvinylpyrrolidone (PVP K-30) is a yellow viscous aqueous solution.
Polyvinylpyrrolidone (PVP K-30), also commonly called polyvidone or povidone, is a water-soluble polymer made from the monomer N-vinylpyrrolidone.
Polyvinylpyrrolidone (PVP K-30), also commonly called polyvidone or povidone, is a water-soluble polymer made from the monomer N-vinylpyrrolidone.


Polyvinylpyrrolidone (PVP K-30) is available in a range of molecular weights and related viscosities, and can be selected according to the desired application properties.
Polyvinylpyrrolidone (PVP K-30) is a polymer used as a pharmaceutical aid, complexing agent, and solubilized.


Polyvinylpyrrolidone (PVP K-30), also commonly called Polyvidone or Povidone, is a water-soluble polymer made from the monomer N-vinylpyrrolidone.
Polyvinylpyrrolidone (PVP K-30) exists in white powder or aqueous solution.
Polyvinylpyrrolidone (PVP K-30) exists as white or milk white powder or colorless or slight yellow transparent liquid.


Polyvinylpyrrolidone (PVP K-30) can dissolve in water and a variety of organic solvents.
Polyvinylpyrrolidone (PVP K-30) has good hygroscopicity, film-forming capability, complexing ability and physiological compatibility.Polyvinylpyrrolidone (PVP K-30) is soluble in water and many organic solvents and it forms hard, transparent, glossy film.


Polyvinylpyrrolidone (PVP K-30) has an average molecular weight of 1,300,000 in Daltons.
Polyvinylpyrrolidone (PVP K-30) is water-soluble, and is compatible with most inorganic salts and many resins.
Polyvinylpyrrolidone (PVP K-30) is a component of Denhardt′s Solution and is included at a concentration of 1% (w/v) in the standard 50X stock solution.


Polyvinylpyrrolidone (PVP K-30), also known as polyvinylpyrrolidone or polyvidone, is a polymer used as a binder in pharmaceutical tablets.
Polyvinylpyrrolidone (PVP K-30) is a hygroscopic and amorphous polyvinylpyrrolidone polymer powder that shows excellent compatibility with acrylate thickeners.


Polyvinylpyrrolidone (PVP K-30) has a molecule weight is 900,000-1,500,000daltons.
Polyvinylpyrrolidone (PVP K-30) makes the film sticky/hard.
Polyvinylpyrrolidone (PVP K-30) is suitable for styling.
In the form of thick gels or creams or waxes provide strong-hold (hard hair) and long lasting.



USES and APPLICATIONS of POLYVINYLPYRROLIDONE (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) is widely used world wide as local antiseptic for skin and appliance in surgical scrubs and injection, and as a good remedy for infection.
Polyvinylpyrrolidone (PVP K-30) also works as microbicide for kitchen utensils in family.


In addition, Polyvinylpyrrolidone (PVP K-30) acts as good microbicide in food industry, breed aquatics industry and animal disease prevention.
Polyvinylpyrrolidone (PVP K-30) has become the 1st-selected iodine-containing disinfector for medical treatment, sanitation and epidemic prevention in developed countries.


Polyvinylpyrrolidone (PVP K-30) is broad-spectrum substance.
Polyvinylpyrrolidone (PVP K-30) can be used as skin and equipment disinfectant before injection or surgery.
Polyvinylpyrrolidone (PVP K-30) can be used as anti-infection treatment for oral, gynecological, surgical, skin, etc.


Polyvinylpyrrolidone (PVP K-30) can also be used as disinfectants to family tableware and apparatus.
Polyvinylpyrrolidone (PVP K-30) can be used as sterilizes, disinfects in the foodstuff industry, breeding aquatics, also prevents animal diseases etc.
Polyvinylpyrrolidone (PVP K-30) is also utilized in numerous technological applications, such as hot-melt adhesives and glue sticks.


Polyvinylpyrrolidone (PVP K-30) is used in batteries, ceramics, fiberglass, inks, inkjet paper, and in the chemical-mechanical planarization process as a specific additive.
Polyvinylpyrrolidone (PVP K-30) is used as a disintegrant and emulsifier in the solution polymerization process.


Commercial Use: Polyvinylpyrrolidone (PVP K-30)is widely used in Food Industry & Beverage industry.
Polyvinylpyrrolidone (PVP K-30), Povidone Iodine has broad-spectrum germicidal action.
Polyvinylpyrrolidone (PVP K-30) is widely used to clean our skin and equipment before injection or surgery.


Anti-infection treatment is another using area for Polyvinylpyrrolidone (PVP K-30).
In our daily use, Polyvinylpyrrolidone (PVP K-30) will disinfects family tableware and apparatus, sterilizes and disinfects in the foodstuff industry, etc.
Polyvinylpyrrolidone (PVP K-30) is used as suspending and dispersing agent and vehicle for pharmaceuticals.


Polyvinylpyrrolidone (PVP K-30) is also used as blood volume expander.
Polyvinylpyrrolidone (PVP K-30) is used Batteries, Films for water treatment and dialysis, Adhesives, Ceramics, Ink, Printing, Fibers and textiles, Personal care products, Semiconductors


Polyvinylpyrrolidone (PVP K-30) is used Daily Use Materials, Environment & Water treatments, Inks & Coatings, and Life science.
Polyvinylpyrrolidone (PVP K-30) is used in the pharmaceutical industry as a synthetic polymer vehicle for dispersing and suspending drugs.
Polyvinylpyrrolidone (PVP K-30) has multiple uses, including as a binder for tablets and capsules, a film former for ophthalmic solutions, to aid in flavoring liquids and chewable tablets, and as an adhesive for transdermal systems.


Polyvinylpyrrolidone (PVP K-30) is also used as a special additive for batteries, ceramics, fiberglass, inks, and inkjet paper, and in the chemical-mechanical planarization process.
Polyvinylpyrrolidone (PVP K-30) is used as an emulsifier and disintegrant for solution polymerization
to increase resolution in photoresists for cathode ray tubes (CRT).


Polyvinylpyrrolidone (PVP K-30) is used in aqueous metal quenching
for production of membranes, such as dialysis and water purification filters.
Polyvinylpyrrolidone (PVP K-30) is used as a binder and complexation agent in agricultural applications such as crop protection, seed treatment and coating.


Polyvinylpyrrolidone (PVP K-30) is used as a thickening agent in tooth whitening gels.
Polyvinylpyrrolidone (PVP K-30) is used as an aid for increasing the solubility of drugs in liquid and semi-liquid dosage forms (syrups, soft gelatine capsules) and as an inhibitor of recrystallization.


Polyvinylpyrrolidone (PVP K-30) is used as an additive to Doro's RNA extraction buffer.
Polyvinylpyrrolidone (PVP K-30) is used as a liquid-phase dispersion enhancing agent in DOSY NMR.
Polyvinylpyrrolidone (PVP K-30) is used as a surfactant, reducing agent, shape controlling agent and dispersant in nanoparticle synthesis and their self-assembly.


Polyvinylpyrrolidone (PVP K-30) is used as a stabilizing agent in all inorganic solar cells.
Medical uses of Polyvinylpyrrolidone (PVP K-30): Polyvinylpyrrolidone (PVP K-30) is used as a binder in many pharmaceutical tablets; it simply passes through the body when taken orally.


Polyvinylpyrrolidone (PVP K-30) added to iodine forms a complex called povidone-iodine that possesses disinfectant properties.
Polyvinylpyrrolidone (PVP K-30) is used in various products such as solutions, ointment, pessaries, liquid soaps, and surgical scrubs.
Polyvinylpyrrolidone (PVP K-30) is sold under the trade names Pyodine and Betadine, among others.


Polyvinylpyrrolidone (PVP K-30) is used in pleurodesis (fusion of the pleura because of incessant pleural effusions).
For this purpose, povidone iodine is as effective and safe as talc, and may be preferred because of easy availability and low cost.
Polyvinylpyrrolidone (PVP K-30) is used in some contact lenses and their packaging solutions.


Polyvinylpyrrolidone (PVP K-30) reduces friction, thus acting as a lubricant, or wetting agent, built into the lens.
Examples of this use include Bausch & Lomb's Ultra contact lenses with MoistureSeal Technology and Air Optix contact lens packaging solution.
Polyvinylpyrrolidone (PVP K-30) is used as a lubricant in some eye drops.


Polyvinylpyrrolidone (PVP K-30) was used as a plasma volume expander for trauma victims after the 1950s.
Polyvinylpyrrolidone (PVP K-30) is not preferred as volume expander due to its ability to provoke histamine release and also interfere with blood grouping.
Polyvinylpyrrolidone (PVP K-30) possesses excellent adhesive,film-forming,dispersing and thickening properties,which are widely used in the pharmaceutical industry.


Polyvinylpyrrolidone (PVP K-30) is one of the three main accessory products recognized & approved worldwide.
Polyvinylpyrrolidone (PVP K-30) is used for use as a solubilizing agent, crystallization inhibitor, and suspension stabilizer in injectables and ophthalmic formulations.


Polyvinylpyrrolidone (PVP K-30) is used for use as a binder in tablets, capsules and granules, as a stabilizer for oral suspensions, film-forming agent, solubilizing agent, dispersant for pigments, as an enzyme stabilizer and to imrove bioavailability.
Polyvinylpyrrolidone (PVP K-30) is used a highly effetive binder,for us as stabilizer in oral and topical suspensions, as a thickener, hydropilizing agent.


Polyvinylpyrrolidone (PVP K-30) has excellent solubility,film-formingcapability, chemical stability,physiologicalinertia and cementability.
Polyvinylpyrrolidone (PVP K-30) is also used in the wine industry as a fining agent for white wine and some beers.
In in-vitro fertilisation laboratories, Polyvinylpyrrolidone (PVP K-30) is used to slow down spermatozoa in order to capture them for e.g. ICSI.


In molecular biology, Polyvinylpyrrolidone (PVP K-30) can be used as a blocking agent during Southern blot analysis as a component of Denhardt's buffer.
Polyvinylpyrrolidone (PVP K-30) is also exceptionally good at absorbing polyphenols during DNA purification.
Polyphenols are common in many plant tissues and can deactivate proteins if not removed and therefore inhibit many downstream reactions like PCR.


In microscopy, Polyvinylpyrrolidone (PVP K-30) is useful for making an aqueous mounting medium.
Polyvinylpyrrolidone (PVP K-30) can be used to screen for phenolic properties, as referenced in a 2000 study on the effect of plant extracts on insulin production.


Polyvinylpyrrolidone (PVP K-30) acts as a stabilizer and film former. It provides strong and stiff hold.
Polyvinylpyrrolidone (PVP K-30) is a hygroscopic and amorphous polyvinylpyrrolidone polymer powder.
Polyvinylpyrrolidone (PVP K-30) shows excellent compatibility with acrylate thickeners.


Polyvinylpyrrolidone (PVP K-30) stabilizes foam, emulsions, dispersions and suspensions.
Polyvinylpyrrolidone (PVP K-30) finds application in formulating hair care products like sprays, mousses, gels, styling lotions/creams, colorants and novelty stylers.


Polyvinylpyrrolidone (PVP K-30) forms clear, hard, shiny and glossy films.
Polyvinylpyrrolidone (PVP K-30) is also used in personal care products, such as shampoos and toothpastes, in paints, and adhesives that must be moistened, such as old-style postage stamps and envelopes.


Polyvinylpyrrolidone (PVP K-30) has also been used in contact lens solutions and in steel-quenching solutions.
Polyvinylpyrrolidone (PVP K-30) is the basis of the early formulas for hair sprays and hair gels, and still continues to be a component of some.
Polyvinylpyrrolidone (PVP K-30) has good solubility, biocompatibility, and physiologically inert, film-forming character, colloid protect ability and compound ability to many organic or inorganic compounds.


Polyvinylpyrrolidone (PVP K-30) is also steady to acid, salt and heat, so it is widely used.
While Polyvinylpyrrolidone (PVP K-30) is used as a film former in hair styling products, it can also be used as an emulsion stabilizer in creams and lotions and as a dispersant for hair colorants. Additionally, pharmaceutical grade Polyvinylpyrrolidone (PVP K-30) can be used in toothpastes and mouthwashes.


Polyvinylpyrrolidone (PVP K-30) is used Adhesives.
Polyvinylpyrrolidone (PVP K-30) is used Binder for tablets, capsules and granules.
Polyvinylpyrrolidone (PVP K-30) is used Coating agent.


Polyvinylpyrrolidone (PVP K-30) is used Film forming agent.
Polyvinylpyrrolidone (PVP K-30) is used Bioavailability enhancing agent.
Polyvinylpyrrolidone (PVP K-30) is used Food stabilizer.


Polyvinylpyrrolidone (PVP K-30) is used in the pharmaceutical industry as a binder in tablet formulations, improving the cohesion of tablet ingredients.
In cosmetics and personal care products, Polyvinylpyrrolidone (PVP K-30) is utilized as a stabilizer, thickener, and film-forming agent in various applications such as hair gels, hair sprays, and skin care products.


Polyvinylpyrrolidone (PVP K-30) is used tablet binding and viscosifier
Polyvinylpyrrolidone (PVP K-30) is widely used in food, cosmetics, technology industries, etc.
Polyvinylpyrrolidone (PVP K-30) is soluble in water and many organic solvents and it forms hard, transparent, glossy film.


Polyvinylpyrrolidone (PVP K-30) is compatible with most inorganic salts and many resins.
Polyvinylpyrrolidone (PVP K-30) stabilizes emulsions, dispersions and suspensions.
While Polyvinylpyrrolidone (PVP K-30) is used as a film former in hair styling products, PVP can also be used as an emulsion stabilizer in creams and lotions and as a dispersant for hair colorants.


Polyvinylpyrrolidone (PVP K-30) is used Adhesives, Ceramics, Glass and Glass Fibers, Coatings and Inks, Electronic Applications, Lithography and Photography, Fibers and Textiles, Membranes, Metallurgy, Paper, Polymerizations, and Water and Wastewater Treatment.
Polyvinylpyrrolidone (PVP K-30) is also used as assistant.


Polyvinylpyrrolidone (PVP K-30) is used as dispersant in graphene and carbon nanotubes.
Polyvinylpyrrolidone (PVP K-30) is used as a pore-forming agent for ultrafiltration membranes, Other fields like Paint and Coating, Plastics and Resin, Adhesives, Glass Fiber, Film, Ink, Detergent, Tabulating, Textile Dying and Printing, etc.


Ideal for various applications due to Polyvinylpyrrolidone (PVP K-30)'s adaptability and solubility properties.
This polymerization can be carried out in water or organic solutions.
Through the initiation of organic or inorganic radical starters, the resulting polymers span an extensive range of molecular weights.


The outcome is a versatile polymer that stands out due to its solubility in various solvents and its substantial binding power, making Polyvinylpyrrolidone (PVP K-30) indispensable for the pharmaceutical sector.
Polyvinylpyrrolidone (PVP K-30) is used Binder for tablets, capsules, and granules, Bioavailability enhancement, Film formation, Solubilization, Lyophilizing agent, Stabilization, Adhesives, and Stabilization.


Polyvinylpyrrolidone (PVP K-30) is water-soluble, and is compatible with most inorganic salts and many resins.
Polyvinylpyrrolidone (PVP K-30) finds application in formulating hair care products like sprays, mousses, gels, styling lotions/creams, colourants and novelty stylers.


Polyvinylpyrrolidone (PVP K-30) forms clear, hard, shiny and glossy films.
Polyvinylpyrrolidone (PVP K-30) is used in the plant tissue culture for inactivation or binding of polyphenols and alkaloids which are produced from explants.


Polyvinylpyrrolidone (PVP K-30) is an alternative to active carbon.
Polyvinylpyrrolidone (PVP K-30) is used in hair styling formulations.
Polyvinylpyrrolidone (PVP K-30) is used by acting as a hair fixative


Polyvinylpyrrolidone (PVP K-30) is used in facial mask formulas.
Polyvinylpyrrolidone (PVP K-30) may be used as an emulsion stabiliser in creams and lotions, and as a dispersant for hair colourants.
Polyvinylpyrrolidone (PVP K-30) is used with Thickeners, emulsifiers, lubricants and clarifiers.


Polyvinylpyrrolidone (PVP K-30) is used by acting as a thickener / film former.
Polyvinylpyrrolidone (PVP K-30) is a ketone organic compound and can be used as a clarifier; stabilizer; thickener; tablet filler; dispersant.
Polymer Polyvinylpyrrolidone (PVP K-30) with a molecular weight of 360,000 is often used as a clarifying agent for beer, vinegar, and wine.


Polyvinylpyrrolidone (PVP K-30) is a versatile chemical used extensively in the pharmaceutical and cosmetic sectors.
Polyvinylpyrrolidone (PVP K-30) is made using a multistep synthetic process that culminates in the polymerization of vinylpyrrolidone in an aqueous solution with water and hydrogen peroxide.


Polyvinylpyrrolidone (PVP K-30) powder is extremely soluble in water and a variety of other organic solvents, forming a hard, transparent, glossy layer.
Polyvinylpyrrolidone (PVP K-30) is compatible with a wide range of inorganic salts and resins.
Polyvinylpyrrolidone (PVP K-30) helps to keep emulsions, dispersions, and suspensions stable.


Polyvinylpyrrolidone (PVP K-30), in addition to being utilised as a film forming and gel in hair styling products, can also be used as an emulsion stabiliser in creams, lotions, and shampoos.
Polyvinylpyrrolidone (PVP K-30), which has a high efficacy, can also be utilised in the production of toothpastes and mouthwashes.


Polyvinylpyrrolidone (PVP K-30) is a white powder that is cruelty-free, vegan-friendly, and ethical.
Polyvinylpyrrolidone (PVP K-30) can be used to make additional sticky powders and gels in addition to being an efficient thickening agent and film maker for hair gels, hair sprays, and toothpastes.


Only the viscosity of Polyvinylpyrrolidone (PVP K-30) limits its concentration of use.
Polyvinylpyrrolidone (PVP K-30)'s pH stable, non-ionic, and colourless, according to reports.
Polyvinylpyrrolidone (PVP K-30) works best in hair gels when combined with carbomer and other thickeners to provide a stiffer grip.


Polyvinylpyrrolidone (PVP K-30), or polyvinyl pyrrolidone, is very compatible with most inorganic salts and, miraculously, with a wide range of resins.
Polyvinylpyrrolidone (PVP K-30) is one of the broad-spectrum disinfectant for both human and animal health.
Polyvinylpyrrolidone (PVP K-30) works as a disinfectant aquatics and animals


Polyvinylpyrrolidone (PVP K-30) can be an Anti-septic for gynecological nursing products, oral care formulations, etc.
Polyvinylpyrrolidone (PVP K-30) is soluble in water and many organic solvents and it forms hard, transparent, glossy film.
Polyvinylpyrrolidone (PVP K-30) is compatible with most inorganic salts and many resins.


Polyvinylpyrrolidone (PVP K-30) stabilizes emulsions, dispersions and suspensions.
While Polyvinylpyrrolidone (PVP K-30) is used as a film former in hair styling products, PVP can also be used as an emulsion stabilizer in creams and lotions and as a dispersant for hair colorants.


Polyvinylpyrrolidone (PVP K-30) appears as a white powder.
Polyvinylpyrrolidone (PVP K-30) has multiple industrial uses in cosmetics for hair gel and fixing, to laundry detergent, and also in industrial use as anti corrosive coating.


Polyvinylpyrrolidone (PVP K-30), also known as polyvinylpyrrolidone or polyvidone, is a polymer and used as a binder in pharmaceutical tablets.
Ungraded products supplied by Spectrum are indicative of a grade suitable for general industrial use or research purposes and typically are not suitable for human consumption or therapeutic use.


Polyvinylpyrrolidone (PVP K-30) is used Skincare, Personal Care, Haircare, Cosmetic
As a nonionic water-soluble polymer, Polyvinylpyrrolidone (PVP K-30) can be applied in a variety of fields-of-use owing to following advantageous characteristics.


Polyvinylpyrrolidone (PVP K-30) is used as a tablet binder to break pills.
Polyvinylpyrrolidone (PVP K-30) is used Suspending agent, dispersing agent, emulsifier
Polyvinylpyrrolidone (PVP K-30) can form a thin layer on the surface of the colloidal particles, which can prevent its condensation.


The film-forming properties of Polyvinylpyrrolidone (PVP K-30) make it effective in many cosmetic products.
Polyvinylpyrrolidone (PVP K-30) forms a hard glossy film on your skin that can be removed upon becoming sufficiently dry.
Polyvinylpyrrolidone (PVP K-30) also possesses cohesive and adhesive properties.


As Polyvinylpyrrolidone (PVP K-30) is available in a fine powdered form of white color, you can add it in different formulas conveniently.
Polyvinylpyrrolidone (PVP K-30) holds the hair in place irrespective of the climate, making it a great ingredient in hair styling products.
Polyvinylpyrrolidone (PVP K-30) also gives a glossy texture and appearance to your hair.


You may also use Polyvinylpyrrolidone (PVP K-30) as a stabilizer as it also blends it with natural ingredients such as resins, inorganic salts, acrylate thickeners, etc.
Polyvinylpyrrolidone (PVP K-30) proves to be effective as a dispersant in hair coloring solutions.


Polyvinylpyrrolidone (PVP K-30) is used Cosmetics and personal care products such as lotions, toothpaste, etc.
Polyvinylpyrrolidone (PVP K-30) can be made to be of sparkling white color by using this as one of the primary ingredients.
Polyvinylpyrrolidone (PVP K-30) is also available in the form of crystals or flakes but Powdered Polyvinylpyrrolidone (PVP K-30) is the best and convenient to use as it can be easily mixed and added to formulas in different stages.


Polyvinylpyrrolidone (PVP K-30) is also used in pharmaceutical products especially as an adhesive to bind the ingredients of tablets.
Polyvinylpyrrolidone (PVP K-30)r possesses cleansing properties as well due to which it is also used in surface cleaners, home cleaners, dishwashing solutions, laundry detergents, and much more.


Polyvinylpyrrolidone (PVP K-30) is also used in personal care products, such as shampoos and toothpastes.
As a food additive, Polyvinylpyrrolidone (PVP K-30) is a stabilizer and has E number E1201.
While Polyvinylpyrrolidone (PVP K-30) is used as a film former in hair styling products, it can also be used as an emulsion stabilizer in creams and lotions and as a dispersant for hair colorants.


Additionally, pharmaceutical grade Polyvinylpyrrolidone (PVP K-30) can be used in toothpastes and mouthwashes.
Polyvinylpyrrolidone (PVP K-30) is used tablet binding, modified release, and viscosifier.
Polyvinylpyrrolidone (PVP K-30) is used Clarifier; Pigment stabilizer; Colloid stabilizer, thickener; Tablet filler; dispersant.


Polyvinylpyrrolidone (PVP K-30) is often used as clarifying agent for beer, vinegar, wine, etc.
Polyvinylpyrrolidone (PVP K-30) is used as stationary liquid for gas chromatography
Polyvinylpyrrolidone (PVP K-30) is used Complex of PVP-I as disinfectant


When used in daily cosmetics, PVP and copolymers have good dispersibility and film-forming property, and Polyvinylpyrrolidone (PVP K-30) can be used as styling liquid, styling agent of hair spray and mousse, shading agent of hair conditioner, foam stabilizer of shampoo, wave styling agent, and dispersant and affinity agent of hair dye.


Polyvinylpyrrolidone (PVP K-30) is used to absorb phenols and tannic acid from water extracts to purify plant enzymes. Polyvinylpyrrolidone (PVP K-30) is used as chromatographic adsorbent to separate aromatic acids, aldehydes and phenols.
Polyvinylpyrrolidone (PVP K-30) is used as a colloidal stabilizer and clarifier.


Polyvinylpyrrolidone (PVP K-30) can be used for the clarification of beer, according to the production needs of the appropriate amount of use.
Polyvinylpyrrolidone (PVP K-30)is used in the pharmaceutical industry as a synthetic polymer vehicle for dispersing and suspending drugs.
Polyvinylpyrrolidone (PVP K-30) is used Disinfectants for medical, aquaculture and animal husbandry.


Polyvinylpyrrolidone (PVP K-30) is used for disinfection of skin and mucous membrane.
Other Industrial Application of Polyvinylpyrrolidone (PVP K-30) include: Suspensant, disperser and emulsifier, Glass fiber, Detergent, Plastics and resin, Ink, Paint and coating, Textile dying and printing, Film, and Adhesive.


Polyvinylpyrrolidone (PVP K-30) is used as a solubilizer and complexing agent.
Polyvinylpyrrolidone (PVP K-30) forms clear, hard, shiny and glossy films.
Polyvinylpyrrolidone (PVP K-30) acts as a stabiliser and film former, providing a strong and stiff hold.


Polyvinylpyrrolidone (PVP K-30) may be used as an emulsion stabiliser in creams and lotions, and as a dispersant for hair colourants.
Ungraded products supplied by Spectrum are indicative of a grade suitable for general industrial use or research purposes and typically are not suitable for human consumption or therapeutic use.


Polyvinylpyrrolidone (PVP K-30) is used in the pharmaceutical industry as a synthetic polymer vehicle for dispersing and suspending drugs.
Polyvinylpyrrolidone (PVP K-30) has multiple uses, including as a binder for tablets and capsules, a film former for ophthalmic solutions, to aid in flavoring liquids and chewable tablets, and as an adhesive for transdermal systems.


Polyvinylpyrrolidone (PVP K-30) has the molecular formula of (C6H9NO)n and appears as a white to slightly off-white powder.
Polyvinylpyrrolidone (PVP K-30) formulations are widely used in the pharmaceutical industry due to their ability to dissolve in both water and oil solvents.
Povidones with higher K-values (i.e., Polyvinylpyrrolidone (PVP K-30)) are not usually given by injection due to their high molecular weights.


Industries uses of Polyvinylpyrrolidone (PVP K-30): Food & Beverage | Personal Care
Polyvinylpyrrolidone (PVP K-30) is used as stationary liquid for gas chromatography.
Polyvinylpyrrolidone (PVP K-30), also known as K90 is a water-soluble polymer with good bio-stability.


Polyvinylpyrrolidone (PVP K-30) is chemically stable, has low toxicity and is biocompatible.
Hence, Polyvinylpyrrolidone (PVP K-30) is useful in a variety of applications such as cosmetics, tissue engineering, and biomedical engineering.
Polyvinylpyrrolidone (PVP K-30) is ideal for gels, mousses, styling creams/lotions, hair colourants, pomades, waxes, and pastes.
Polyvinylpyrrolidone (PVP K-30) stabilizes foam, emulsions, dispersions, and suspensions.


Polyvinylpyrrolidone (PVP K-30) is available for Cosmetic/Personal care applications,they are requested subject to special quality and purity controls of the cosmetic/personal care formulations needed.
Additionally, pharmaceutical grade Polyvinylpyrrolidone (PVP K-30) can be used in toothpastes and mouthwashes.


-Pharmaceutical uses of Polyvinylpyrrolidone (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) is a new and excellent pharmaceutical excipient.
Polyvinylpyrrolidone (PVP K-30) is mainly used as binder for tablet, dissolving assistant for injection, flow assistant for capsule, dispersant for liquid medicine and stain, stabilizer for enzyme and heat sensitive drug, coprecipitant for poorly soluble drugs, lubricator and antitoxic assistant for eye drug.
Polyvinylpyrrolidone (PVP K-30) works as excipients in more than one hundreds drugs.


-Cosmetics uses of Polyvinylpyrrolidone (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) can be used as film-forming agent, viscosity-enhancement agent, lubricator and adhesive.
Polyvinylpyrrolidone (PVP K-30) is the key component of hair sprays, mousse, gels and lotions & solution, hair-dying reagent and shampoo in hair-care products.
Polyvinylpyrrolidone (PVP K-30) can be used as assistant in skin-care products, eye makeup, lipstick, deodorant, sunscreen and dentifrice.


-Other uses of Polyvinylpyrrolidone (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) binds to polar molecules exceptionally well, owing to its polarity.
This has led to Polyvinylpyrrolidone (PVP K-30)'s application in coatings for photo-quality ink-jet papers and transparencies, as well as in inks for inkjet printers.


-Skin Cleansers uses of Polyvinylpyrrolidone (PVP K-30):
Because of its strong surfactant qualities, Polyvinylpyrrolidone (PVP K-30) can be a beneficial ingredient in the manufacture of high-quality skin cleansers.
Polyvinylpyrrolidone (PVP K-30) attracts oil, filth, and grime that accumulate on your skin, allowing for easy rinsing.


-Hair Products uses of Polyvinylpyrrolidone (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) is the finest ingredient for both men and women when it comes to making high-quality hair care products.
Polyvinylpyrrolidone (PVP K-30) avoids flaky residues by protecting your hair's natural oils, giving them a lustrous appearance.


-Bubble Bath Formulations uses of Polyvinylpyrrolidone (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) can be utilised to make high-quality bubble bath products that are gentle on all skin types.
Polyvinylpyrrolidone (PVP K-30) exfoliates and removes pollutants, improving skin brightness while washing, degreasing, and hydrating the skin.


-Batteries uses of Polyvinylpyrrolidone (PVP K-30):
*Dispersants:
Dispersion of metal oxides and carbon materials
Soluble in water and NMP to make slurry


-Membranes for water treatment and dialysis uses of Polyvinylpyrrolidone (PVP K-30):
*Compatibilizers, Hydrophilic agents, Pore forming agents:
Soluble in amide solvents, and disperses uniformly in polysulfones, etc.
Highly hydrophilic, Forms pores by washing membranes in water,
Makes hydrophobic film surfaces hydrophilic


-Adhesives uses of Polyvinylpyrrolidone (PVP K-30):
*Pressure-sensitive adhesives, Rewetting adhesives, Food packaging (non-contact):
Adhesion to a wide range of base materials such as plastics, glass, and metals etc.
Highly hydrophilic, highly water-absorbing
Low toxicity


-Ceramics uses of Polyvinylpyrrolidone (PVP K-30):
*Binders and Dispersants:
Excellent dispersion of metal oxides
Binds to a wide range of materials


-Ink, Printing, Fibers and textiles uses of Polyvinylpyrrolidone (PVP K-30):
*Dispersants and Sizing agents:
Pigment dispersion, binding properties
Easily water soluble


-Personal care products uses of Polyvinylpyrrolidone (PVP K-30):
*Setting agents, Thickeners, and Humectants:
Highly adhesive, easily water soluble
Form retention
Hydrophilic


-Semiconductors uses of Polyvinylpyrrolidone (PVP K-30):
*Resist, Polishing solutions, and Cleaning solutions:
Easily water soluble, dispersion of inorganic substances


-Polyvinylpyrrolidone (PVP K-30) is a nonionic, water-soluble polymer with the following features.
Polyvinylpyrrolidone (PVP K-30) can be suitable for the usage of various applications and fields.
*Polyvinylpyrrolidone (PVP K-30) is soluble in various solvents (e.g.: water, alcohol, amide and chlorineated solvents)
*Heat Resistance (Tg=160-170℃)
*Highly hygroscopicity
*Good film-forming properties
*Adhesion
*Ability to form complexes


-In Pharmaceutical Industry uses of Polyvinylpyrrolidone (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) possess excellent adhesive,film-forming,dispersing and thickening properties,and are widely used in the pharmaceutical industry.

Low molecular weight Polyvinylpyrrolidone (PVP K-30), often used as a solubilizing agent, crystallization inhibitor and suspension stabilizer in injection and ophthalmic formulations such as PVP K12,K15,K17.

Medium Molecular Polyvinylpyrrolidone (PVP K-30), often used as binder in tablets,capsules and granules, as a stabilizer for oral suspensions,film-forming agent,solubilizing agent, dispersant for pigments, as an enzyme stabilizer and to improve bioavailability.

High molecular Polyvinylpyrrolidone (PVP K-30), as highly effective binder, often used as stabilizer in oral and topical suspension, as a thickener, hydropylizing agent such as PVP K90.


-Pharmaceuticals uses of Polyvinylpyrrolidone (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) can be used to improve the solubility of a variety of medicines and medications.
The efficacy of end product items can be boosted up to twofold by utilising polyvinyl pyrrolidone as solubility enhancers.


-Hair Gels uses of Polyvinylpyrrolidone (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) can be used in hair styling applications like hair gels, pomades, etc. because of its ability to retain the form and hardness of hair irrespective of the weather conditions.
Its capacity to resist heat and humidity makes Polyvinylpyrrolidone (PVP K-30) one of the best ingredients for hair styling products.


-Moisturizers uses of Polyvinylpyrrolidone (PVP K-30):
Polyvinyl Pyrrolidone or PVP K-90 can be used in skincare products like lotions and moisturizers, due to its efficient hygroscopic properties. It retains the moisture content of your skin for a long time and rejuvenates your skin deeply to make it soft, plump, and smooth.


-Effective Skin Cleansers uses of Polyvinylpyrrolidone (PVP K-30):
Polyvinyl Pyrrolidone can be an effective ingredient in manufacturing process of high quality skin cleansers due to its efficient and best in class surfactant properties, which attract oil, dirt and grime that accumulate on your skin, thereby aiding in easy rinsing away.


-Hair Products uses of Polyvinylpyrrolidone (PVP K-30):
Polyvinyl Pyrrolidone is the best ingredient in the preparation of good quality hair care products for both men and women. It prevents flaky residues by preserving the natural oils of your hair and thereby giving them a glossy appearance.


-Bubble Bath Formulations of Polyvinylpyrrolidone (PVP K-30):
Polyvinyl Pyrrolidone can be used in the manufacturing of high quality bubble bath products which cleanse all types of skin. It helps in cleansing, degreasing and moisturizing the skin by exfoliating and removing impurities, promoting skin radiance.


-Perfumes & Fragrances uses of Polyvinylpyrrolidone (PVP K-30):
Polyvinyl Pyrrolidone can be used in volatile compounds, making it a useful ingredient in fragrances as it helps to retain the flavor or aroma in them for a long time.
The excellent stabilizing properties of PVP K-90 are also used in hair and skin conditioners these days.


-In Pharmaceutical Industry uses of Polyvinylpyrrolidone (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) is a kind of new excellent pharmaceutical excipient.
Polyvinylpyrrolidone (PVP K-30) is mainly used as binder for tablet and granule, dissolving assistant for injection, flow assistant for capsule, dispersant for liquid medicine and pigment, stabilizer for enzyme and heat-sensitive drug, coprecipitant for poorly soluble drugs, lubricator and antitoxic assistant for eye drug.

Polyvinylpyrrolidone (PVP K-30) has been used as excipient in more than one hundred drugs.
With excellent adhesive, film-forming, dispersing and thickening properties, Polyvinylpyrrolidone (PVP K-30) is widely used in the pharmaceutical industry.
Polyvinylpyrrolidone (PVP K-30) is used in the pharmaceutical industry as a synthetic polymer vehicle for dispersing and suspending drugs.

Polyvinylpyrrolidone (PVP K-90 works as highly effective binder.
Polyvinylpyrrolidone (PVP K-30) is often used as stabilizer in oral and topical suspension, as a thickener, hydropylizing agent, etc.


-In Cosmetic Industry uses of Polyvinylpyrrolidone (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) is widely applied in a wide range in hair care, skin care & oral care products.
Polyvinylpyrrolidone (PVP K-30) is particularly suitable for formulations where viscosity modification and film forming properties are needed.

Polyvinylpyrrolidone (PVP K-30) is particularly suited to hair styling products.
The higher molecular weight products such as Polyvinylpyrrolidone (PVP K-30) better choice where high viscosity are needed in applications.
Polyvinylpyrrolidone (PVP K-30) is widely used in cosmetics such as Hair Gels, Hair mousses, Liquid hair setting preparations, Pump Sprays.


-TV tube uses of Polyvinylpyrrolidone (PVP K-30):
Polyvinylpyrrolidone (PVP K-30)acts as a film former.
Polyvinylpyrrolidone (PVP K-30) stabilizes emulsions, dispersions and suspensions.
Polyvinylpyrrolidone (PVP K-30) forms clear, hard & glossy film.
Polyvinylpyrrolidone (PVP K-30) is suggested for use in hair styling formulations.



FUNCTION OF POLYVINYLPYRROLIDONE (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) that is considered to be physiologically inert and can be plasticized with water and most common organic plasticizers.
Polyvinylpyrrolidone (PVP K-30) can be used as a viscosity modifier, detergent component, media component in solution chemistry, and for the control of dyes and inks.



IN COSMETIC INDUSTRY USES OF POLYVINYLPYRROLIDONE (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) is used widely in a wide range in hair care, skin care & oral care products.
Polyvinylpyrrolidone (PVP K-30) is particularly suitable for formulations where viscosity modification and film forming properties are required.

Polyvinylpyrrolidone (PVP K-30) is particularly suited to hair styling products.
The medium molecular weights such as Polyvinylpyrrolidone (PVP K-30) are preferred where viscosity is critical in applications, for example, spray.
The higher molecular weight products such as PVP K90 are the best choice where high viscosity are required in applications.

Polyvinylpyrrolidone (PVP K-30) is widely used in cosmetics as followings:
*Hair Gels
*Hair mousses
*Liquid hair setting preparations
*Pump Sprays



INDUSTRIAL APPLICATION OF POLYVINYLPYRROLIDONE (PVP K-30):
* Suspensant, disperser and emulsifier
* Glass fiber
* Detergent
* Plastics and resin
* Ink, paint and coating
* Textile dying and printing
* Film and adhesive
* TV tube



PREFERRED INDUSTRIES OF POLYVINYLPYRROLIDONE (PVP K-30):
*Pharmaceuticals
*Cosmetics
*Food and Beverage
*Chemicals
*Plastics Manufacturing
*Paints and Coatings
*Textiles
*Printing
*Ceramics
*Adhesives



PROPERTY OF POLYVINYLPYRROLIDONE (PVP K-30):
1) Polyvinylpyrrolidone (PVP K-30) exists as white, creamy white powder or aquous solution.
2) Polyvinylpyrrolidone (PVP K-30) can dissolve in water and a variety of organic solvents.
3) Polyvinylpyrrolidone (PVP K-30) has good hygroscopicity, film-forming capability, complexing ability and physiology compatibility



FEATURES AND BENEFITS OF POLYVINYLPYRROLIDONE (PVP K-30):
*highly adhesive polymer- excellent tablet binding capacity at low concentration producing hard, non-friable tablets
*excellent solubility in water and non polar solvents- can be added as an aqueous or non-aqueous solution to wet granulation tablet processes.
*dissolves quickly; does not delay disintegration or dissolution

*forms lubricious hydrogels and coatings for medical devices
low solution viscosity- workable solution viscosity at high polymer levels makes it easy-to-use in granulation and other manufacturing equipment

*non-ionic- solution viscosity is not affected by changes in pH or the presence of electrolytes, ill not form complexes or interact with ionic drug actives
*interfacially active- acts as a drug solubilizer, inhibits crystallization of drug actives and inactive ingredients, stabilizes suspensions, dispersions and emulsions



CLAIMS OF POLYVINYLPYRROLIDONE (PVP K-30):
*Thickeners & Stabilizers
*Film Formers
*glossy/ultra-glossy
*hold
*shine / radiance
*foam quality
*hardening



PROPERTIES OF POLYVINYLPYRROLIDONE (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) is a white or creamy white powder,odourless,nontoxic,non-irritant,dissolves readily in water,alcohol,amine and many other organic solvents.
Polyvinylpyrrolidone (PVP K-30) is widely used in pharmaceutical fields,

Polyvinylpyrrolidone (PVP K-30) is soluble in water and other polar solvents.
For example, Polyvinylpyrrolidone (PVP K-30) is soluble in various alcohols, such as methanol and ethanol, as well as in more exotic solvents like the deep eutectic solvent formed by choline chloride and urea (Relin).

When dry Polyvinylpyrrolidone (PVP K-30) is a light flaky hygroscopic powder, readily absorbing up to 40% of its weight in atmospheric water.
In solution, Polyvinylpyrrolidone (PVP K-30) has excellent wetting properties and readily forms films.
This makes Polyvinylpyrrolidone (PVP K-30) good as a coating or an additive to coatings.
A 2014 study found fluorescent properties of Polyvinylpyrrolidone (PVP K-30) and its oxidized hydrolyzate.



ADVANTAGES OF POLYVINYLPYRROLIDONE (PVP K-30):
-Treatment and prevention of infection in wounds.
-Broad range of microbicidal activity against bacteria, fungi, protozoa, and viruses.
-Universally preferred iodine antiseptic.



BENEFITS OF POLYVINYLPYRROLIDONE (PVP K-30):
- For use in enhancing liquid flavor
- Binds different Ingredients together
- Stabilizes Emulsion & Dispersion
- Maintain the viscosity of formula



FRAGRANCES OF POLYVINYLPYRROLIDONE (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) can be found in volatile compounds, making it a helpful element in fragrances since it helps to preserve the flavour or aroma.
Polyvinylpyrrolidone (PVP K-30)'s outstanding stabilising capabilities are now employed in hair and skin conditioners.



FUNCTIONS OF POLYVINYLPYRROLIDONE (PVP K-30):
*Adhesion
*Dispersion / Aggregation
*Wash / Decomposition / Dissolution



PHARMACODYNAMICS OF POLYVINYLPYRROLIDONE (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) itself has no microbicidal activity.
Polyvinylpyrrolidone (PVP K-30) exhibits rapid, potent, broad-spectrum antimicrobial properties.



MECHANISM OF ACTION OF POLYVINYLPYRROLIDONE (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) is a water-soluble complex that mediates a bactericidal or virucidal action following the gradual liberation of free iodine from the complex at the application site to react with the pathogen.



KEY ATTRIBUTES OF POLYVINYLPYRROLIDONE (PVP K-30):
* Polyvinylpyrrolidone (PVP K-30) can be plasticized with water and most common organic plasticisers.
Polyvinylpyrrolidone (PVP K-30) is considered to be physiologically inert.
* High Polarity and the resultant propensity to form complexes with hydrogen donors, such as phenols and carboxylic acids as well as anionic dyes and inorganic salts.
* Dispersancy, where components in a mixture are uniformly distributed through the use of Polyvinylpyrrolidone (PVP K-30).
* Hydrophilicity, where the water solubility of Polyvinylpyrrolidone (PVP K-30) is its dominant feature and frequently a factor along with other properties valuable to numerous applications.
* Adhesion



HISTORY OF POLYVINYLPYRROLIDONE (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) was first synthesized by BASF chemist Walter Reppe, and a patent was filed in 1939 for one of the derivatives of acetylene chemistry.
Polyvinylpyrrolidone (PVP K-30) was initially used as a blood plasma substitute and later in a wide variety of applications in medicine, pharmacy, cosmetics and industrial production.
BASF continues to make Polyvinylpyrrolidone (PVP K-30), including a pharmaceutical portfolio under the brand name of Kollidon.



BENEFITS OF POLYVINYLPYRROLIDONE (PVP K-30):
• Stabilised emulsions
• Water soluble
• Compatible with inorganic salts
• Forms a hard film



TABLET BINDING OF POLYVINYLPYRROLIDONE (PVP K-30):
The application of Polyvinylpyrrolidone (PVP K-30) in high shear mixers or fluid-bed granulators yields granules that are notably hard, offering a smooth flow and minimal fines.
This result is a binding strength, ideal for sturdy, robust production output.

In terms of binder quantities, Polyvinylpyrrolidone (PVP K-30) is typically between 2% and 5% relative to the tablet weight.
Also suitable for direct compression, even without granulation.
The process calls for a specific humidity level, given the need for the powder mixture to maintain a certain moisture content for optimal binding.

Additionally, Polyvinylpyrrolidone (PVP K-30) alongside microcrystalline cellulose enhances tablet hardness and reinforces their edges.
For lactose monohydrate tablets with a Polyvinylpyrrolidone (PVP K-30) composition via wet granulation, the polymer also proves valuable.
Polyvinylpyrrolidone (PVP K-30)'s apt for modern procedures such as fluidized-bed granulation.

Given its relatively low viscosity, solutions of Polyvinylpyrrolidone (PVP K-30) can be rapidly prepared and easily sprayed, resulting in uniformly hard, dust-free granules.
When pigmentation is involved in the spraying process, Polyvinylpyrrolidone (PVP K-30), Povidone notably enhances the distribution of these pigments.



THE SOLUBILITY DYNAMICS CAN VARY GREATLY BASED ON THE SOLVENT USED:
*Soluble in:
chloroform, cyclohexanol, ethanol abs., glycerol, isopropanol, methanol, methylene chloride, n-butanol, n-propanol, polyethylene glycol 300, polyethylene glycol 400 ,propylene glycol, triethanolamine, and water
*Insoluble in:
pentane, carbon tetrachloride, toluene, xylene



FEATURES AND BENEFITS OF POLYVINYLPYRROLIDONE (PVP K-30):
*highly adhesive polymer- excellent tablet binding capacity at low concentrations producing hard, non-friable tablets
*excellent solubility in water and non-polar solvents- can be added as an aqueous or non-aqueous solution to wet granulation tablet processes
*dissolves quickly- does not delay disintegration or dissolution
low solution viscosity- workable solution viscosity at high polymer levels makes it easy to use in granulation and other manufacturing equipment
*non-ionic- solution- viscosity is not affected by changes in pH or the presence of electrolytes, will not form complexes or interact with ionic drug actives
*interfacially active- acts as a drug solubilizer, inhibits crystallization of drug actives and inactive ingredients, stabilizes suspensions, dispersions and emulsions



NATURE OF POLYVINYLPYRROLIDONE (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) is a white powder, with slightly odor. Hygroscopic.
Polyvinylpyrrolidone (PVP K-30) is soluble in water, ethanol, ether and other organic solvents.
Polyvinylpyrrolidone (PVP K-30) has for a variety of substances have a strong ability to complex adsorption.



STANDARD OF POLYVINYLPYRROLIDONE (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) is obtained by polymerizing pyrrolidone and ethylene under pressure to form a vinyl pyrrolidone monomer by the action of a catalyst.
Polyvinylpyrrolidone (PVP K-30) has an average molecular weight of 3.8x 104 and a molecular formula of (C6H9NO)n, where n represents the average number of 1-vinyl-2-pyrrolidone moieties.



PREPARATION METHOD OF POLYVINYLPYRROLIDONE (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) is obtained by polymerizing n-vinyl-2-pyrrolidone in the presence of a basic catalyst or N,N'-vinyltriazole, followed by purification.



TRAIT OF POLYVINYLPYRROLIDONE (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) is white to milky white powder; Odorless or slightly odorous, tasteless; With hygroscopicity.
Polyvinylpyrrolidone (PVP K-30) is soluble in water, ethanol, isopropanol or chloroform, and insoluble in acetone or ether.



SOLUBILITY OF POLYVINYLPYRROLIDONE (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) readily dissolve in water, alcohol, amine and halohydrocarbon, but are not dissolved in acetone and aether etc..
Polyvinylpyrrolidone (PVP K-30) has good solubility, biocompatibility, and physiologically inert, film-forming character, colloid protect ability and compound ability to many organic or inorganic compounds.
Polyvinylpyrrolidone (PVP K-30) is also steady to acid, salt and heat, so it is widely used.



HOME CARE FEATURES AND BENEFITS OF POLYVINYLPYRROLIDONE (PVP K-30):
- acts as rheology modifier
- is a highly adhesive tablet binder
- stabilizes emulsion and structures liquid products
- provides anti-soil redeposition, enzyme stabilization and dye transfer inhibition
- functions as binder and protective coating for enzymes
- provides surface shine enhancement
- forms hard, transparent, glossy films



MANUFACTURING PROCESS OF POLYVINYLPYRROLIDONE (PVP K-30):
Polyvinylpyrrolidone (PVP K-30) is made by a process called polymerization in which N-vinylpyrrolidone is used as the source material along with hydrogen peroxide.



POLYVINYLPYRROLIDONE (PVP K-30) BENEFITS:
*Solubility
Polyvinylpyrrolidone (PVP K-30) is soluble in alcoholic solvents and H2O.
However, Polyvinylpyrrolidone (PVP K-30) is not soluble in hydrocarbons and oils.

Avoid adding Polyvinylpyrrolidone (PVP K-30) when the formula is in the oil-phase.
Polyvinylpyrrolidone (PVP K-30) is also used as a solubilizing agent because of its ability to blend and dissolve a variety of biochemicals and natural ingredients in emulsions.

*Versatile
As a stable ingredient you can add Polyvinylpyrrolidone (PVP K-30) to formulas without worrying about their pH balance.
Polyvinylpyrrolidone (PVP K-30) is blended with a variety of ingredients.
You can use Polyvinylpyrrolidone (PVP K-30) for making a wide range of cosmetic and skincare products.
Polyvinylpyrrolidone (PVP K-30) doesn’t add a huge amount of this powder as it might make your emulsions too thick.

*Non-toxic Nature
Polyvinylpyrrolidone (PVP K-30) is widely used in the cosmetic and pharmaceutical industries, so it is safe for human health.
Polyvinylpyrrolidone (PVP K-30) has been utilized for improving the storage quality of cosmetic products, for instance hair gels, shampoos indicating its non-toxic nature.

*Controlling Viscosity
Polyvinylpyrrolidone (PVP K-30) helps in the reduction of the viscosity of different formulations and can thin creams, lotions, and gels effectively.
The formulations become easier to spread with the help of this powdered cosmetic raw material.

*Cosmetic Product
Polyvinylpyrrolidone (PVP K-30) is used as a dispersant in pigments and it is also effective as a stabilizer for oral care products.
Polyvinylpyrrolidone (PVP K-30) also proves to be effective in improving the bioavailability of solutions.
As a stabilizer, Polyvinylpyrrolidone (PVP K-30) proves to be useful in enhancing the overall shelf-life of cosmetic products.

*Solubility Enhancers
Polyvinylpyrrolidone (PVP K-30) is an excellent solubility enhancer and can be used in the pharmaceutical industry as well as the cosmetic industry to enhance the solubility of various drugs and cosmetic products, thereby increasing their efficacy.



BENEFITS OF POLYVINYLPYRROLIDONE (PVP K-30):
• Strong, stiff hold
• Stabilised emulsions, dispersions and suspensions
• Foam stabiliser
• Excellent compatibility with acrylate thickeners
The usage of Polyvinylpyrrolidone (PVP K-30) depends on the nature of the formulation, thus there is no exact recommended concentration.



PHYSICAL and CHEMICAL PROPERTIES of POLYVINYLPYRROLIDONE (PVP K-30):
Physical state: powder
Color: beige
Odor: No data available
Melting point/freezing point: No data available
Initial boiling point and boiling range: No data available
Flammability (solid, gas): No data available
Upper/lower flammability or explosive limits: No data available
Flash point: No data available
Autoignition temperature: No data available
Decomposition temperature: No data available
pH: 5,0 - 8 at 10 g/l at 20 °C
Viscosity
Viscosity, kinematic: No data available
Viscosity, dynamic: No data available
Water solubility: No data available
Partition coefficient: n-octanol/water: No data available
Vapor pressure: No data available
Density: No data available
Relative density: No data available
Relative vapor density: No data available
Particle characteristics: No data available

Explosive properties: No data available
Oxidizing properties: No data available
Other safety information: No data available
CAS No.: 9003-39-8
Density: 1.144g/cm3
Molecular Formula: C6H9NO
Boiling point: 217.6°C
Melting point: 130°C
Flashing point: 93.9°C
Stability: Stable.
Incompatible with strong oxidizing agents.
Light sensitive.
Hygroscopic.
Appearance: White powder
Storage: Store at RT.
CAS: 9003-39-8
Mol. Formula: (C6H9NO)n
HSN Code: 39059910
Mol. Weight: ~40000
Appearance (Form): Powder
Appearance (Colour): White
Maximum limits of impurities
Residual monomer content: 0.8%

Water content: 5%
Sulphate ash: 0.02%
pH: 3-7
K-value: 27-32.4
Viscosity: at 25° C (5% aqu. solution) About 2.4 cP
CAS:9003-39-8
MF:CH4
MW:16.04246
EINECS:1312995-182-4
Mol File:9003-39-8.mol Melting point:~165 °C (dec.)(lit.)
Boiling point:90-93 °C
Density 1,69 g/cm3
storage temp. Store at RT.
solubility H2O: soluble100mg/mL
form: powder
color: White to yellow-white
PH: 3.0-5.0
Water Solubility: Soluble in water.
Sensitive: Hygroscopic
Merck: 14,7697
Stability:Stable.
Incompatible with strong oxidizing agents.
Light sensitive.
Hygroscopic.

Molecular Formula: (C6H9NO)n
Grade: Laboratory Reagent (LR)
CAS: 9003-39-8
Molecular Weight: Approx. 40000
CAS No: 9003-39-8
Molecular Weight: ~30kD
Appearance: Off-white to white powder
Vinylpyrrolidone (HPLC)≤0.001%
pH: (10%)3.0-5.0
K Value: 27-32.4
Total aerobic microbial count: <200cfu/g
Total combined yeast/mold counts: <20cfu/g
Molecular Formula / Molecular Weight: (C6H9NO)n
Physical State (20 deg.C): Solid
Store Under Inert Gas: Store under inert gas
Condition to Avoid: Hygroscopic
CAS RN: 9003-39-8
PubChem Substance ID: 87574663
Merck Index (14): 7697
MDL Number: MFCD01076626

Molecular Formula: (C6H9NO)n
Molar Mass: 111.143
Density: 1,69 g/cm3
Melting Point: 130℃
Boling Point: 90-93 °C
Water Solubility: >=10 g/100 mL at 20 C
Appearance: White powder
Storage Condition: Room Temprature
Melting Point: 130°C
Molecular Formula / Molecular Weight: (C6H9NO)n
Physical State (20 deg.C): Solid
Store Under Inert Gas: Store under inert gas
Condition to Avoid: Air Sensitive,Hygroscopic
CAS RN: 9003-39-8
PubChem Substance ID: 87574664
Merck Index (14): 7697
MDL Number: MFCD01076626
CAS: 9003-39-8
Molecular Formula: (C6H9NO)n

Molecular Weight (g/mol): 111.14
MDL Number: MFCD01076626
InChI Key: WHNWPMSKXPGLAX-UHFFFAOYSA-N
Color: White
Physical Form: Crystalline Powder
Chemical Name or Material: Polyvinylpyrrolidone K 90 Average Molecular Wt. 360,000
Characteristics: White or yellowish-white, hydroscopic powder
Identification A, B, C: Positive
K-value: 81.0-97.2
Residue on ignition: 0.10%max
Vinylpyrrolidone: 0.20% max
Water: 5.0% max
Heavy metals (as Pb): 10ppm max
Hydrazine: 1ppm max
Nitrogen: 11.5-12.8%
Aldehydes (as acetaldehyde): 0.05% max
pH value (5% water solution): 3.0-7.0
Chemical Formula: (C6H9NO)n
CAS Number: 9003-39-8
IUPAC Name: Polyvinylpyrrolidone K 90

INCI Name: Polyvinylpyrrolidone
Molecular Weight: 111.14 grams/mole
Specific Gravity: N/A
Boiling Point: 165 °C
Flash Point: N/A
Odor: Bland
pH Level: 3 to 7
HLB Value: 18
Color: White or off-white
Grade Standard: Technical Grade
Shelf Life: 24 months
Purity (%): 99%
Form: Powder
Alternative Names: PVP
Solubility: Yes



FIRST AID MEASURES of POLYVINYLPYRROLIDONE (PVP K-30):
-Description of first-aid measures:
*If inhaled:
If breathed in, move person into fresh air.
*In case of skin contact:
Wash off with soap and plenty of water.
*In case of eye contact:
Flush eyes with water as a precaution.
*If swallowed:
Never give anything by mouth to an unconscious person.
Rinse mouth with water.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of POLYVINYLPYRROLIDONE (PVP K-30):
-Environmental precautions:
No special environmental precautions required.
-Methods and materials for containment and cleaning up:
Sweep up and shovel.
Keep in suitable, closed containers for disposal.



FIRE FIGHTING MEASURES of POLYVINYLPYRROLIDONE (PVP K-30):
-Extinguishing media:
*Suitable extinguishing media:
Use water spray, alcohol-resistant foam, dry chemical or carbon dioxide.
-Further information:
No data available



EXPOSURE CONTROLS/PERSONAL PROTECTION of POLYVINYLPYRROLIDONE (PVP K-30):
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
*Skin protection:
Handle with gloves.
Wash and dry hands.
Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
Splash contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
*Respiratory protection:
Respiratory protection is not required.
-Control of environmental exposure:
No special environmental precautions required.



HANDLING and STORAGE of POLYVINYLPYRROLIDONE (PVP K-30):
-Precautions for safe handling:
*Hygiene measures:
General industrial hygiene practice.
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Keep container tightly closed in a dry and well-ventilated place.
Store in cool place.
hygroscopic



STABILITY and REACTIVITY of POLYVINYLPYRROLIDONE (PVP K-30):
-Reactivity:
No data available
-Chemical stability:
Stable under recommended storage conditions.
-Possibility of hazardous reactions:
No data available
-Conditions to avoid:
No data available



SYNONYMS:
Poly[1-(2-oxo-1-pyrrolidinyl)ethylene]
Polyvinylpyrrolidone
PVP
Povidone
1-Ethenylpyrrolidin-2-one
PVP
Povidone
PVPP
Crospovidone
Polyvidone
PNVP
Poly[1-(2-oxo-1-pyrrolidinyl)ethylen]
1-Ethenyl-2-pyrrolidon homopolymer
1-Vinyl-2-pyrrolidinon-Polymere
Kollidon
Poly-N-vinylpyrrolidine
Sokalan K30
Kollidon 30
Povidone 30
1-ethenylpyrrolidin-2-one
Povidone
Polyvidone
Poly[1-(2-oxo-1-pyrrolidinyl)ethylen]
9003-39-8
PVP
Polyvidone
Povidone
PVP
Povidone K-90
Poly[1-(2-oxo-1-pyrrolidinyl)ethylene]
PVP
K-30
PVP-K
PVP-K30
PVP-K17
PVP-K25
PVP-K90
Povidone
PVP K 30
Crospovidone
Polyinylpyrrolidone
Polyvinylpyrrolidine
Polyvinylpyrrolidone
Polyvinglpyrrolidone
Polyvinyl pyrrolidone
poly vinyl pyrrolidone
vinisil
vinylpyrrolidonepolymer
PVP K30 USP24
PVP K120
K30 PVP K30
K 30 POVIDONE K 30 BP/USP
PVP H-30
PVP K 30 TECHNICAL GRADE
POLYVINYLPYRROLIDONE K 25
POLYVINYLPYRROLIDONE K 60
POLYVINYLPYRROLIDONE-DIVERGAN RS
POLYVINYLPYRROLIDONE
POLYVIDONUM
PLASDONE XL
PLANT AC
PVPD
Polyvinylpyrolidone PVP/PA Copolymer
POLYVINYLPYRROLIDONEPOLYMERS
polyvinylpyrrolidone, povidone
POLY(N-VINYL-2-PYRROLIDONE) (LOW M.WT.)
POLY(N-VINYL-2-PYRROLIDONE) (MED. M.WT.)
CROSPOIRDONE
POLYVINYLPYRROLIDONE (K30) (POVIDONE)
POLYVINYLPOLYPYRROLIDONE (PVP-40)
pvp2
pvp3
k-30
pvp4
pvpd
pvp
pop
k60
k25
k115
PVP K-90 15% Solution
2-Pyrrolidinone,1-Ethenyl-,Homopolymer
PVP K-90
Plasdone K-90
Agrimer
Albigen A
Hemodesis
K90
Luviskol K90
Plasdone
Povidone
PVPP
PVP-K 90
PVP
Polyvinylpyrrolidone
Poly[1-(2-oxo-1-pyrrolidinyl)ethylene)
Povidone K-90
1-Ethenyl-2-pyrrolidinone polymers
2-Pyrrolidinone,
1-ethenyl, homopolymer
2-Pyrrolidinone, 1-vinyl-, polymers
N-Vinylpyrrolidinone polymer
N-Vinylbutyrolactam polymer
N-Vinylpyrrolidone polymer
Poly(n-vinlybutyrolactam)
Poly(1-vinylpyrrolidinone)
Poly(N-vinylpyrrolidinone)
Vinylpyrrolidinone polymer
Vinylpyrrolidone polymer


POLYVINYLPYRROLIDONE (PVP K-90)
Polyvinylpyrrolidone (PVP K-90) is a polymer that is amorphous and hygroscopic.
Polyvinylpyrrolidone (PVP K-90) is a water-soluble polymer of a non-ionic type that has a stable pH level.


CAS Number: 9003-39-8
EC Number: 618-363-4
MDL Number: MFCD01076626
Molecular Formula : (C6H9NO)x


Polyvinylpyrrolidone (PVP K-90) other names homopolymer of 1-Vinly-2-Pyrrolidone; polyvidone or povidone, is a water-soluble polymer made from the monomer N-vinylpyrrolidone.
Polyvinylpyrrolidone (PVP K-90) has Good solubility in water as well as various organic solvents; Good affinity to various polymers and resins; High hygroscopicity; Good film formation property; Good adhesiveness to various substrates; Good chelate / complex formation property.


Polyvinylpyrrolidone (PVP K-90) is a hygroscopic polymer, supplied in a white to creamy white powder or flakes, ranging from low to high viscosity & low to high molecular weight, which is characterized by K Value.
Polyvinylpyrrolidone (PVP K-90)’s easily soluble in water and many other organic solvents, with excellent hygroscopicity, film-forming, adhesive, chemical stability, and toxicological safeness characteristics.


Polyvinylpyrrolidone (PVP K-90) is a polymer that is amorphous and hygroscopic.
Polyvinylpyrrolidone (PVP K-90) is a water-soluble polymer of a non-ionic type that has a stable pH level.
Polyvinylpyrrolidone (PVP K-90) is soluble in water and many organic solvents and it forms hard, transparent, glossy film.


Polyvinylpyrrolidone (PVP K-90) is compatible with most inorganic salts and many resins.
Polyvinylpyrrolidone (PVP K-90) stabilizes emulsions, dispersions and suspensions.
Polyvinylpyrrolidone (PVP K-90) appears as a white powder.


Polyvinylpyrrolidone (PVP K-90) is a yellow viscous aqueous solution.
Polyvinylpyrrolidone (PVP K-90), also commonly called polyvidone or povidone, is a water-soluble polymer made from the monomer N-vinylpyrrolidone.
Polyvinylpyrrolidone (PVP K-90), also commonly called polyvidone or povidone, is a water-soluble polymer made from the monomer N-vinylpyrrolidone.


Polyvinylpyrrolidone (PVP K-90) is available in a range of molecular weights and related viscosities, and can be selected according to the desired application properties.
Polyvinylpyrrolidone (PVP K-90) is a polymer used as a pharmaceutical aid, complexing agent, and solubilized.


Polyvinylpyrrolidone (PVP K-90), also commonly called Polyvidone or Povidone, is a water-soluble polymer made from the monomer N-vinylpyrrolidone.
Polyvinylpyrrolidone (PVP K-90) exists in white powder or aqueous solution.
Polyvinylpyrrolidone (PVP K-90) exists as white or milk white powder or colorless or slight yellow transparent liquid.


Polyvinylpyrrolidone (PVP K-90) can dissolve in water and a variety of organic solvents.
Polyvinylpyrrolidone (PVP K-90) has good hygroscopicity, film-forming capability, complexing ability and physiological compatibility.Polyvinylpyrrolidone (PVP K-90) is soluble in water and many organic solvents and it forms hard, transparent, glossy film.


Polyvinylpyrrolidone (PVP K-90) has an average molecular weight of 1,300,000 in Daltons.
Polyvinylpyrrolidone (PVP K-90) is water-soluble, and is compatible with most inorganic salts and many resins.
Polyvinylpyrrolidone (PVP K-90) is a component of Denhardt′s Solution and is included at a concentration of 1% (w/v) in the standard 50X stock solution.


Polyvinylpyrrolidone (PVP K-90), also known as polyvinylpyrrolidone or polyvidone, is a polymer used as a binder in pharmaceutical tablets.
Polyvinylpyrrolidone (PVP K-90) is a hygroscopic and amorphous polyvinylpyrrolidone polymer powder that shows excellent compatibility with acrylate thickeners.


Polyvinylpyrrolidone (PVP K-90) has a molecule weight is 900,000-1,500,000daltons.
Polyvinylpyrrolidone (PVP K-90) makes the film sticky/hard.
Polyvinylpyrrolidone (PVP K-90) is suitable for styling.
In the form of thick gels or creams or waxes provide strong-hold (hard hair) and long lasting.


Polyvinylpyrrolidone (PVP K-90)'s molecular formula is (C6H9NO)n, and its CAS number is 9003-39-8.
Polyvinylpyrrolidone (PVP K-90) is white to off-white powder, odorless and tasteless, soluble in water and ethanol, insoluble in acetone or ether.


Polyvinylpyrrolidone (PVP K-90) is also known as povidone K30.
Polyvinylpyrrolidone (PVP K-90) is a non-ionic polymer.
Polyvinylpyrrolidone (PVP K-90) is a high molecular polymer polymerized by N-vinylpyrrolidone (NVP).


The average molecular weight of Polyvinylpyrrolidone (PVP K-90) is 40000.
Polyvinylpyrrolidone (PVP K-90), also commonly called polyvidone or povidone, is a water-soluble polymer made from the monomer N-vinylpyrrolidone.
Polyvinylpyrrolidone (PVP K-90) is hygroscopic, has good adhesive properties, has a stable pH value, and has the ability to form transparent films.


Polyvinylpyrrolidone (PVP K-90) is soluble in water and many organic solvents and it forms hard, transparent, glossy film.
Polyvinylpyrrolidone (PVP K-90) is compatible with most inorganic salts and many resins.
Polyvinylpyrrolidone (PVP K-90) stabilizes emulsions, dispersions and suspensions.


Polyvinylpyrrolidone (PVP K-90) exists in white powder or aqueous solution.
Polyvinylpyrrolidone (PVP K-90) readily dissolves in water, alcohol, amine and halohydrocarbon, but is not dissolved in acetone and aether etc..
Polyvinylpyrrolidone (PVP K-90)'s molecular formula is (C6H9NO)n, and its CAS number is 9003-39-8.


Polyvinylpyrrolidone (PVP K-90) is white to off-white powder, odorless and tasteless, soluble in water and ethanol, insoluble in acetone or ether.
PVP K30, also known as Polyvinylpyrrolidone (PVP K-90), is a synthetic polymer produced from the monomer vinylpyrrolidone.
Polyvinylpyrrolidone (PVP K-90) is a white, free-flowing powder with a high molecular weight.


Polyvinylpyrrolidone (PVP K-90) is water-soluble and has excellent film-forming and adhesive properties.
Polyvinylpyrrolidone (PVP K-90) is a low viscosity wet binder with a good balance between adhesive strength and ease of handling.
Polyvinylpyrrolidone (PVP K-90) is highly adhesive at low viscosity, thus offering the optimal balance between adhesive strength and ease of handling at 2-5% Polyvinylpyrrolidone (PVP K-90) or 4-7% Polyvinylpyrrolidone (PVP K-90).


Polyvinylpyrrolidone (PVP K-90) has excellent solubility in water and a range of organic solvents, and is supplied as a free flowing powder with spherical particle morphology.
Due to its non-ionic property, Polyvinylpyrrolidone (PVP K-90) does not bear any risk of interaction with ionic APIs.


Ingredient Depot's Polyvinylpyrrolidone (PVP K-90), Povidone, or Polyvinylpyrrolidone is a synthetic polymer known for its versatility.
Offered as a near-white, free-flowing powder, Polyvinylpyrrolidone (PVP K-90) is characterized by a faint, intrinsic scent and is essentially tasteless.
Its unique property of being soluble in both water and numerous organic solvents, combined with a robust binding capacity and the capability to form soluble complexes, makes Polyvinylpyrrolidone (PVP K-90) unparalleled among synthetic colloids.


Polyvinylpyrrolidone (PVP K-90) is produced through a polymerization process.
Polyvinylpyrrolidone (PVP K-90) acts as a stabiliser and film former, providing a strong and stiff hold.
Polyvinylpyrrolidone (PVP K-90) is a hygroscopic and amorphous polyvinylpyrrolidone polymer powder that shows excellent compatibility with acrylate thickeners.


Polyvinylpyrrolidone (PVP K-90) stabilises foam, emulsions, dispersions, and suspensions.
The usage for Polyvinylpyrrolidone (PVP K-90) depends on the nature of the formulation, thus there is no exact recommended concentration.
Polyvinylpyrrolidone (PVP K-90), also commonly called polyvidone or povidone, is a water-soluble polymer compound made from the monomer N-vinylpyrrolidone.


Polyvinylpyrrolidone (PVP K-90) is available in a range of molecular weights and related viscosities, and can be selected according to the desired application properties.
As a food additive, Polyvinylpyrrolidone (PVP K-90) is a stabilizer and has E number E1201.


Polyvinylpyrrolidone (PVP K-90), commonly known as polyvidone or povidone, is a water-soluble polymer created from the monomer N-vinylpyrrolidone.
Polyvinylpyrrolidone (PVP K-90) is a compound which has been widely tested and used in human and veterinary medicine as an effective wound healing accelerator and disinfectant when combined with iodine and other compounds.


Polyvinylpyrrolidone (PVP K-90) has the molecular formula of (C6H9NO)n and appears as a white to slightly off-white powder.
Povidone formulations are widely used in the pharmaceutical industry due to their ability to dissolve in both water and oil solvents.
The k number refers to the mean molecular weight of the povidone.


Povidones with higher K-values (i.e., k90) are not usually given by injection due to their high molecular weights.
The higher molecular weights prevent excretion by the kidneys and lead to accumulation in the body.
The best-known example of povidone formulations is povidone-iodine, an important disinfectant.



USES and APPLICATIONS of POLYVINYLPYRROLIDONE (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) is used Skincare, Personal Care, Haircare, Cosmetic
As a nonionic water-soluble polymer, Polyvinylpyrrolidone (PVP K-90) can be applied in a variety of fields-of-use owing to following advantageous characteristics.


Polyvinylpyrrolidone (PVP K-90) is used as a tablet binder to break pills.
Polyvinylpyrrolidone (PVP K-90) is used Suspending agent, dispersing agent, emulsifier
Polyvinylpyrrolidone (PVP K-90) can form a thin layer on the surface of the colloidal particles, which can prevent its condensation.


The film-forming properties of Polyvinylpyrrolidone (PVP K-90) make it effective in many cosmetic products.
Polyvinylpyrrolidone (PVP K-90) forms a hard glossy film on your skin that can be removed upon becoming sufficiently dry.
Polyvinylpyrrolidone (PVP K-90) also possesses cohesive and adhesive properties.


As Polyvinylpyrrolidone (PVP K-90) is available in a fine powdered form of white color, you can add it in different formulas conveniently.
Polyvinylpyrrolidone (PVP K-90) holds the hair in place irrespective of the climate, making it a great ingredient in hair styling products.
Polyvinylpyrrolidone (PVP K-90) also gives a glossy texture and appearance to your hair.


You may also use Polyvinylpyrrolidone (PVP K-90) as a stabilizer as it also blends it with natural ingredients such as resins, inorganic salts, acrylate thickeners, etc.
Polyvinylpyrrolidone (PVP K-90) proves to be effective as a dispersant in hair coloring solutions.


Polyvinylpyrrolidone (PVP K-90) is used Cosmetics and personal care products such as lotions, toothpaste, etc.
Polyvinylpyrrolidone (PVP K-90) can be made to be of sparkling white color by using this as one of the primary ingredients.
Polyvinylpyrrolidone (PVP K-90) is also available in the form of crystals or flakes but Powdered Polyvinylpyrrolidone (PVP K-90) is the best and convenient to use as it can be easily mixed and added to formulas in different stages.


Polyvinylpyrrolidone (PVP K-90) is also used in pharmaceutical products especially as an adhesive to bind the ingredients of tablets.
Polyvinylpyrrolidone (PVP K-90)r possesses cleansing properties as well due to which it is also used in surface cleaners, home cleaners, dishwashing solutions, laundry detergents, and much more.


Polyvinylpyrrolidone (PVP K-90) is also used in personal care products, such as shampoos and toothpastes.
As a food additive, Polyvinylpyrrolidone (PVP K-90) is a stabilizer and has E number E1201.
While Polyvinylpyrrolidone (PVP K-90) is used as a film former in hair styling products, it can also be used as an emulsion stabilizer in creams and lotions and as a dispersant for hair colorants.


Additionally, pharmaceutical grade Polyvinylpyrrolidone (PVP K-90) can be used in toothpastes and mouthwashes.
Polyvinylpyrrolidone (PVP K-90) is used tablet binding, modified release, and viscosifier.
Polyvinylpyrrolidone (PVP K-90) is used Clarifier; Pigment stabilizer; Colloid stabilizer, thickener; Tablet filler; dispersant.


Polyvinylpyrrolidone (PVP K-90) is often used as clarifying agent for beer, vinegar, wine, etc.
Polyvinylpyrrolidone (PVP K-90) is used as stationary liquid for gas chromatography
Polyvinylpyrrolidone (PVP K-90) is used Complex of PVP-I as disinfectant


When used in daily cosmetics, PVP and copolymers have good dispersibility and film-forming property, and Polyvinylpyrrolidone (PVP K-90) can be used as styling liquid, styling agent of hair spray and mousse, shading agent of hair conditioner, foam stabilizer of shampoo, wave styling agent, and dispersant and affinity agent of hair dye.


Polyvinylpyrrolidone (PVP K-90) is used to absorb phenols and tannic acid from water extracts to purify plant enzymes. Polyvinylpyrrolidone (PVP K-90) is used as chromatographic adsorbent to separate aromatic acids, aldehydes and phenols.
Polyvinylpyrrolidone (PVP K-90) is used as a colloidal stabilizer and clarifier.


Polyvinylpyrrolidone (PVP K-90) can be used for the clarification of beer, according to the production needs of the appropriate amount of use.
Polyvinylpyrrolidone (PVP K-90)is used in the pharmaceutical industry as a synthetic polymer vehicle for dispersing and suspending drugs.
Polyvinylpyrrolidone (PVP K-90) is used Disinfectants for medical, aquaculture and animal husbandry.


Polyvinylpyrrolidone (PVP K-90) is used for disinfection of skin and mucous membrane.
Other Industrial Application of Polyvinylpyrrolidone (PVP K-90) include: Suspensant, disperser and emulsifier, Glass fiber, Detergent, Plastics and resin, Ink, Paint and coating, Textile dying and printing, Film, and Adhesive.


Polyvinylpyrrolidone (PVP K-90) is used as a solubilizer and complexing agent.
Polyvinylpyrrolidone (PVP K-90) forms clear, hard, shiny and glossy films.
Polyvinylpyrrolidone (PVP K-90) acts as a stabiliser and film former, providing a strong and stiff hold.


Polyvinylpyrrolidone (PVP K-90) may be used as an emulsion stabiliser in creams and lotions, and as a dispersant for hair colourants.
Ungraded products supplied by Spectrum are indicative of a grade suitable for general industrial use or research purposes and typically are not suitable for human consumption or therapeutic use.


Polyvinylpyrrolidone (PVP K-90) is used in the pharmaceutical industry as a synthetic polymer vehicle for dispersing and suspending drugs.
Polyvinylpyrrolidone (PVP K-90) has multiple uses, including as a binder for tablets and capsules, a film former for ophthalmic solutions, to aid in flavoring liquids and chewable tablets, and as an adhesive for transdermal systems.


Polyvinylpyrrolidone (PVP K-90) has the molecular formula of (C6H9NO)n and appears as a white to slightly off-white powder.
Polyvinylpyrrolidone (PVP K-90) formulations are widely used in the pharmaceutical industry due to their ability to dissolve in both water and oil solvents.
Povidones with higher K-values (i.e., Polyvinylpyrrolidone (PVP K-90)) are not usually given by injection due to their high molecular weights.


Industries uses of Polyvinylpyrrolidone (PVP K-90): Food & Beverage | Personal Care
Polyvinylpyrrolidone (PVP K-90) is used as stationary liquid for gas chromatography.
Polyvinylpyrrolidone (PVP K-90), also known as K90 is a water-soluble polymer with good bio-stability.


Polyvinylpyrrolidone (PVP K-90) is chemically stable, has low toxicity and is biocompatible.
Hence, Polyvinylpyrrolidone (PVP K-90) is useful in a variety of applications such as cosmetics, tissue engineering, and biomedical engineering.
Polyvinylpyrrolidone (PVP K-90) is ideal for gels, mousses, styling creams/lotions, hair colourants, pomades, waxes, and pastes.
Polyvinylpyrrolidone (PVP K-90) stabilizes foam, emulsions, dispersions, and suspensions.


Polyvinylpyrrolidone (PVP K-90) is widely used world wide as local antiseptic for skin and appliance in surgical scrubs and injection, and as a good remedy for infection.
Polyvinylpyrrolidone (PVP K-90) also works as microbicide for kitchen utensils in family.


In addition, Polyvinylpyrrolidone (PVP K-90) acts as good microbicide in food industry, breed aquatics industry and animal disease prevention.
Polyvinylpyrrolidone (PVP K-90) has become the 1st-selected iodine-containing disinfector for medical treatment, sanitation and epidemic prevention in developed countries.


Polyvinylpyrrolidone (PVP K-90) is broad-spectrum substance.
Polyvinylpyrrolidone (PVP K-90) can be used as skin and equipment disinfectant before injection or surgery.
Polyvinylpyrrolidone (PVP K-90) can be used as anti-infection treatment for oral, gynecological, surgical, skin, etc.


Polyvinylpyrrolidone (PVP K-90) can also be used as disinfectants to family tableware and apparatus.
Polyvinylpyrrolidone (PVP K-90) can be used as sterilizes, disinfects in the foodstuff industry, breeding aquatics, also prevents animal diseases etc.
Polyvinylpyrrolidone (PVP K-90) is also utilized in numerous technological applications, such as hot-melt adhesives and glue sticks.


Polyvinylpyrrolidone (PVP K-90) is used in batteries, ceramics, fiberglass, inks, inkjet paper, and in the chemical-mechanical planarization process as a specific additive.
Polyvinylpyrrolidone (PVP K-90) is used as a disintegrant and emulsifier in the solution polymerization process.


Commercial Use: Polyvinylpyrrolidone (PVP K-90)is widely used in Food Industry & Beverage industry.
Polyvinylpyrrolidone (PVP K-90), Povidone Iodine has broad-spectrum germicidal action.
Polyvinylpyrrolidone (PVP K-90) is widely used to clean our skin and equipment before injection or surgery.


Anti-infection treatment is another using area for Polyvinylpyrrolidone (PVP K-90).
In our daily use, Polyvinylpyrrolidone (PVP K-90) will disinfects family tableware and apparatus, sterilizes and disinfects in the foodstuff industry, etc.
Polyvinylpyrrolidone (PVP K-90) is used as suspending and dispersing agent and vehicle for pharmaceuticals.


Polyvinylpyrrolidone (PVP K-90) is also used as blood volume expander.
Polyvinylpyrrolidone (PVP K-90) is used Batteries, Films for water treatment and dialysis, Adhesives, Ceramics, Ink, Printing, Fibers and textiles, Personal care products, Semiconductors


Polyvinylpyrrolidone (PVP K-90) is used Daily Use Materials, Environment & Water treatments, Inks & Coatings, and Life science.
Polyvinylpyrrolidone (PVP K-90) is used in the pharmaceutical industry as a synthetic polymer vehicle for dispersing and suspending drugs.
Polyvinylpyrrolidone (PVP K-90) has multiple uses, including as a binder for tablets and capsules, a film former for ophthalmic solutions, to aid in flavoring liquids and chewable tablets, and as an adhesive for transdermal systems.


Polyvinylpyrrolidone (PVP K-90) is also used as a special additive for batteries, ceramics, fiberglass, inks, and inkjet paper, and in the chemical-mechanical planarization process.
Polyvinylpyrrolidone (PVP K-90) is used as an emulsifier and disintegrant for solution polymerization
to increase resolution in photoresists for cathode ray tubes (CRT).


Polyvinylpyrrolidone (PVP K-90) is used in aqueous metal quenching
for production of membranes, such as dialysis and water purification filters.
Polyvinylpyrrolidone (PVP K-90) is used as a binder and complexation agent in agricultural applications such as crop protection, seed treatment and coating.


Polyvinylpyrrolidone (PVP K-90) is used as a thickening agent in tooth whitening gels.
Polyvinylpyrrolidone (PVP K-90) is used as an aid for increasing the solubility of drugs in liquid and semi-liquid dosage forms (syrups, soft gelatine capsules) and as an inhibitor of recrystallization.


Polyvinylpyrrolidone (PVP K-90) is used as an additive to Doro's RNA extraction buffer.
Polyvinylpyrrolidone (PVP K-90) is used as a liquid-phase dispersion enhancing agent in DOSY NMR.
Polyvinylpyrrolidone (PVP K-90) is used as a surfactant, reducing agent, shape controlling agent and dispersant in nanoparticle synthesis and their self-assembly.


Polyvinylpyrrolidone (PVP K-90) is used as a stabilizing agent in all inorganic solar cells.
Medical uses of Polyvinylpyrrolidone (PVP K-90): Polyvinylpyrrolidone (PVP K-90) is used as a binder in many pharmaceutical tablets; it simply passes through the body when taken orally.


Polyvinylpyrrolidone (PVP K-90) added to iodine forms a complex called povidone-iodine that possesses disinfectant properties.
Polyvinylpyrrolidone (PVP K-90) is used in various products such as solutions, ointment, pessaries, liquid soaps, and surgical scrubs.
Polyvinylpyrrolidone (PVP K-90) is sold under the trade names Pyodine and Betadine, among others.


Polyvinylpyrrolidone (PVP K-90) is used in pleurodesis (fusion of the pleura because of incessant pleural effusions).
For this purpose, povidone iodine is as effective and safe as talc, and may be preferred because of easy availability and low cost.
Polyvinylpyrrolidone (PVP K-90) is used in some contact lenses and their packaging solutions.


Polyvinylpyrrolidone (PVP K-90) reduces friction, thus acting as a lubricant, or wetting agent, built into the lens.
Examples of this use include Bausch & Lomb's Ultra contact lenses with MoistureSeal Technology and Air Optix contact lens packaging solution.
Polyvinylpyrrolidone (PVP K-90) is used as a lubricant in some eye drops.


Polyvinylpyrrolidone (PVP K-90) was used as a plasma volume expander for trauma victims after the 1950s.
Polyvinylpyrrolidone (PVP K-90) is not preferred as volume expander due to its ability to provoke histamine release and also interfere with blood grouping.
Polyvinylpyrrolidone (PVP K-90) possesses excellent adhesive,film-forming,dispersing and thickening properties,which are widely used in the pharmaceutical industry.


Polyvinylpyrrolidone (PVP K-90) is one of the three main accessory products recognized & approved worldwide.
Polyvinylpyrrolidone (PVP K-90) is used for use as a solubilizing agent, crystallization inhibitor, and suspension stabilizer in injectables and ophthalmic formulations.


Polyvinylpyrrolidone (PVP K-90) is used for use as a binder in tablets, capsules and granules, as a stabilizer for oral suspensions, film-forming agent, solubilizing agent, dispersant for pigments, as an enzyme stabilizer and to imrove bioavailability.
Polyvinylpyrrolidone (PVP K-90) is used a highly effetive binder,for us as stabilizer in oral and topical suspensions, as a thickener, hydropilizing agent.


Polyvinylpyrrolidone (PVP K-90) has excellent solubility,film-formingcapability, chemical stability,physiologicalinertia and cementability.
Polyvinylpyrrolidone (PVP K-90) is also used in the wine industry as a fining agent for white wine and some beers.
In in-vitro fertilisation laboratories, Polyvinylpyrrolidone (PVP K-90) is used to slow down spermatozoa in order to capture them for e.g. ICSI.


In molecular biology, Polyvinylpyrrolidone (PVP K-90) can be used as a blocking agent during Southern blot analysis as a component of Denhardt's buffer.
Polyvinylpyrrolidone (PVP K-90) is also exceptionally good at absorbing polyphenols during DNA purification.
Polyphenols are common in many plant tissues and can deactivate proteins if not removed and therefore inhibit many downstream reactions like PCR.


In microscopy, Polyvinylpyrrolidone (PVP K-90) is useful for making an aqueous mounting medium.
Polyvinylpyrrolidone (PVP K-90) can be used to screen for phenolic properties, as referenced in a 2000 study on the effect of plant extracts on insulin production.


Polyvinylpyrrolidone (PVP K-90) acts as a stabilizer and film former. It provides strong and stiff hold.
Polyvinylpyrrolidone (PVP K-90) is a hygroscopic and amorphous polyvinylpyrrolidone polymer powder.
Polyvinylpyrrolidone (PVP K-90) shows excellent compatibility with acrylate thickeners.


Polyvinylpyrrolidone (PVP K-90) stabilizes foam, emulsions, dispersions and suspensions.
Polyvinylpyrrolidone (PVP K-90) finds application in formulating hair care products like sprays, mousses, gels, styling lotions/creams, colorants and novelty stylers.


Polyvinylpyrrolidone (PVP K-90) forms clear, hard, shiny and glossy films.
Polyvinylpyrrolidone (PVP K-90) is also used in personal care products, such as shampoos and toothpastes, in paints, and adhesives that must be moistened, such as old-style postage stamps and envelopes.


Polyvinylpyrrolidone (PVP K-90) has also been used in contact lens solutions and in steel-quenching solutions.
Polyvinylpyrrolidone (PVP K-90) is the basis of the early formulas for hair sprays and hair gels, and still continues to be a component of some.
Polyvinylpyrrolidone (PVP K-90) has good solubility, biocompatibility, and physiologically inert, film-forming character, colloid protect ability and compound ability to many organic or inorganic compounds.


Polyvinylpyrrolidone (PVP K-90) is also steady to acid, salt and heat, so it is widely used.
While Polyvinylpyrrolidone (PVP K-90) is used as a film former in hair styling products, it can also be used as an emulsion stabilizer in creams and lotions and as a dispersant for hair colorants. Additionally, pharmaceutical grade Polyvinylpyrrolidone (PVP K-90) can be used in toothpastes and mouthwashes.


Polyvinylpyrrolidone (PVP K-90) is used Adhesives.
Polyvinylpyrrolidone (PVP K-90) is used Binder for tablets, capsules and granules.
Polyvinylpyrrolidone (PVP K-90) is used Coating agent.


Polyvinylpyrrolidone (PVP K-90) is used Film forming agent.
Polyvinylpyrrolidone (PVP K-90) is used Bioavailability enhancing agent.
Polyvinylpyrrolidone (PVP K-90) is used Food stabilizer.


Polyvinylpyrrolidone (PVP K-90) is used in the pharmaceutical industry as a binder in tablet formulations, improving the cohesion of tablet ingredients.
In cosmetics and personal care products, Polyvinylpyrrolidone (PVP K-90) is utilized as a stabilizer, thickener, and film-forming agent in various applications such as hair gels, hair sprays, and skin care products.


Polyvinylpyrrolidone (PVP K-90) is used tablet binding and viscosifier
Polyvinylpyrrolidone (PVP K-90) is widely used in food, cosmetics, technology industries, etc.
Polyvinylpyrrolidone (PVP K-90) is soluble in water and many organic solvents and it forms hard, transparent, glossy film.


Polyvinylpyrrolidone (PVP K-90) is compatible with most inorganic salts and many resins.
Polyvinylpyrrolidone (PVP K-90) stabilizes emulsions, dispersions and suspensions.
While Polyvinylpyrrolidone (PVP K-90) is used as a film former in hair styling products, PVP can also be used as an emulsion stabilizer in creams and lotions and as a dispersant for hair colorants.


Polyvinylpyrrolidone (PVP K-90) is used Adhesives, Ceramics, Glass and Glass Fibers, Coatings and Inks, Electronic Applications, Lithography and Photography, Fibers and Textiles, Membranes, Metallurgy, Paper, Polymerizations, and Water and Wastewater Treatment.
Polyvinylpyrrolidone (PVP K-90) is also used as assistant.


Polyvinylpyrrolidone (PVP K-90) is used as dispersant in graphene and carbon nanotubes.
Polyvinylpyrrolidone (PVP K-90) is used as a pore-forming agent for ultrafiltration membranes, Other fields like Paint and Coating, Plastics and Resin, Adhesives, Glass Fiber, Film, Ink, Detergent, Tabulating, Textile Dying and Printing, etc.


Ideal for various applications due to Polyvinylpyrrolidone (PVP K-90)'s adaptability and solubility properties.
This polymerization can be carried out in water or organic solutions.
Through the initiation of organic or inorganic radical starters, the resulting polymers span an extensive range of molecular weights.


The outcome is a versatile polymer that stands out due to its solubility in various solvents and its substantial binding power, making Polyvinylpyrrolidone (PVP K-90) indispensable for the pharmaceutical sector.
Polyvinylpyrrolidone (PVP K-90) is used Binder for tablets, capsules, and granules, Bioavailability enhancement, Film formation, Solubilization, Lyophilizing agent, Stabilization, Adhesives, and Stabilization.


Polyvinylpyrrolidone (PVP K-90) may be used as an emulsion stabiliser in creams and lotions, and as a dispersant for hair colourants.
Polyvinylpyrrolidone (PVP K-90) is water-soluble, and is compatible with most inorganic salts and many resins.
Polyvinylpyrrolidone (PVP K-90) finds application in formulating hair care products like sprays, mousses, gels, styling lotions/creams, colourants and novelty stylers.


Polyvinylpyrrolidone (PVP K-90) forms clear, hard, shiny and glossy films.
Polyvinylpyrrolidone (PVP K-90) is used in the plant tissue culture for inactivation or binding of polyphenols and alkaloids which are produced from explants.


Polyvinylpyrrolidone (PVP K-90) is an alternative to active carbon.
Polyvinylpyrrolidone (PVP K-90) is used in hair styling formulations. Polyvinylpyrrolidone (PVP K-90) is used by acting as a hair fixative
Polyvinylpyrrolidone (PVP K-90) is used in facial mask formulas.


Polyvinylpyrrolidone (PVP K-90) is used by acting as a thickener / film former.
Polyvinylpyrrolidone (PVP K-90) is a ketone organic compound and can be used as a clarifier; stabilizer; thickener; tablet filler; dispersant.
Polymer Polyvinylpyrrolidone (PVP K-90) with a molecular weight of 360,000 is often used as a clarifying agent for beer, vinegar, and wine.


Polyvinylpyrrolidone (PVP K-90) is used with Thickeners, emulsifiers, lubricants and clarifiers.
Polyvinylpyrrolidone (PVP K-90) is a versatile chemical used extensively in the pharmaceutical and cosmetic sectors.
Polyvinylpyrrolidone (PVP K-90) is made using a multistep synthetic process that culminates in the polymerization of vinylpyrrolidone in an aqueous solution with water and hydrogen peroxide.


Polyvinylpyrrolidone (PVP K-90) powder is extremely soluble in water and a variety of other organic solvents, forming a hard, transparent, glossy layer.
Polyvinylpyrrolidone (PVP K-90) is compatible with a wide range of inorganic salts and resins.
Polyvinylpyrrolidone (PVP K-90) helps to keep emulsions, dispersions, and suspensions stable.


Polyvinylpyrrolidone (PVP K-90), in addition to being utilised as a film forming and gel in hair styling products, can also be used as an emulsion stabiliser in creams, lotions, and shampoos.
Polyvinylpyrrolidone (PVP K-90), which has a high efficacy, can also be utilised in the production of toothpastes and mouthwashes.


Polyvinylpyrrolidone (PVP K-90) is a white powder that is cruelty-free, vegan-friendly, and ethical.
Polyvinylpyrrolidone (PVP K-90) can be used to make additional sticky powders and gels in addition to being an efficient thickening agent and film maker for hair gels, hair sprays, and toothpastes.


Only the viscosity of Polyvinylpyrrolidone (PVP K-90) limits its concentration of use.
Polyvinylpyrrolidone (PVP K-90)'s pH stable, non-ionic, and colourless, according to reports.
Polyvinylpyrrolidone (PVP K-90) works best in hair gels when combined with carbomer and other thickeners to provide a stiffer grip.


Polyvinylpyrrolidone (PVP K-90), or polyvinyl pyrrolidone, is very compatible with most inorganic salts and, miraculously, with a wide range of resins.
Polyvinylpyrrolidone (PVP K-90) is one of the broad-spectrum disinfectant for both human and animal health.
Polyvinylpyrrolidone (PVP K-90) works as a disinfectant aquatics and animals


Polyvinylpyrrolidone (PVP K-90) can be an Anti-septic for gynecological nursing products, oral care formulations, etc.
Polyvinylpyrrolidone (PVP K-90) is soluble in water and many organic solvents and it forms hard, transparent, glossy film.
Polyvinylpyrrolidone (PVP K-90) is compatible with most inorganic salts and many resins.


Polyvinylpyrrolidone (PVP K-90) stabilizes emulsions, dispersions and suspensions.
While Polyvinylpyrrolidone (PVP K-90) is used as a film former in hair styling products, PVP can also be used as an emulsion stabilizer in creams and lotions and as a dispersant for hair colorants.


Polyvinylpyrrolidone (PVP K-90) appears as a white powder.
Polyvinylpyrrolidone (PVP K-90) has multiple industrial uses in cosmetics for hair gel and fixing, to laundry detergent, and also in industrial use as anti corrosive coating.


Polyvinylpyrrolidone (PVP K-90), also known as polyvinylpyrrolidone or polyvidone, is a polymer and used as a binder in pharmaceutical tablets.
Ungraded products supplied by Spectrum are indicative of a grade suitable for general industrial use or research purposes and typically are not suitable for human consumption or therapeutic use.


Polyvinylpyrrolidone (PVP K-90) is available for Cosmetic/Personal care applications,they are requested subject to special quality and purity controls of the cosmetic/personal care formulations needed.
Additionally, pharmaceutical grade Polyvinylpyrrolidone (PVP K-90) can be used in toothpastes and mouthwashes.



-Hair Gels uses of Polyvinylpyrrolidone (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) can be used in hair styling applications like hair gels, pomades, etc. because of its ability to retain the form and hardness of hair irrespective of the weather conditions.
Its capacity to resist heat and humidity makes Polyvinylpyrrolidone (PVP K-90) one of the best ingredients for hair styling products.


-Moisturizers uses of Polyvinylpyrrolidone (PVP K-90):
Polyvinyl Pyrrolidone or PVP K-90 can be used in skincare products like lotions and moisturizers, due to its efficient hygroscopic properties.
It retains the moisture content of your skin for a long time and rejuvenates your skin deeply to make it soft, plump, and smooth.


-Effective Skin Cleansers uses of Polyvinylpyrrolidone (PVP K-90):
Polyvinyl Pyrrolidone can be an effective ingredient in manufacturing process of high quality skin cleansers due to its efficient and best in class surfactant properties, which attract oil, dirt and grime that accumulate on your skin, thereby aiding in easy rinsing away.


-Hair Products uses of Polyvinylpyrrolidone (PVP K-90):
Polyvinyl Pyrrolidone is the best ingredient in the preparation of good quality hair care products for both men and women. It prevents flaky residues by preserving the natural oils of your hair and thereby giving them a glossy appearance.


-Bubble Bath Formulations of Polyvinylpyrrolidone (PVP K-90):
Polyvinyl Pyrrolidone can be used in the manufacturing of high quality bubble bath products which cleanse all types of skin. It helps in cleansing, degreasing and moisturizing the skin by exfoliating and removing impurities, promoting skin radiance.


-Perfumes & Fragrances uses of Polyvinylpyrrolidone (PVP K-90):
Polyvinyl Pyrrolidone can be used in volatile compounds, making it a useful ingredient in fragrances as it helps to retain the flavor or aroma in them for a long time.
The excellent stabilizing properties of PVP K-90 are also used in hair and skin conditioners these days.


-In Pharmaceutical Industry uses of Polyvinylpyrrolidone (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) is a kind of new excellent pharmaceutical excipient.
Polyvinylpyrrolidone (PVP K-90) is mainly used as binder for tablet and granule, dissolving assistant for injection, flow assistant for capsule, dispersant for liquid medicine and pigment, stabilizer for enzyme and heat-sensitive drug, coprecipitant for poorly soluble drugs, lubricator and antitoxic assistant for eye drug.

Polyvinylpyrrolidone (PVP K-90) has been used as excipient in more than one hundred drugs.
With excellent adhesive, film-forming, dispersing and thickening properties, Polyvinylpyrrolidone (PVP K-90) is widely used in the pharmaceutical industry.
Polyvinylpyrrolidone (PVP K-90) is used in the pharmaceutical industry as a synthetic polymer vehicle for dispersing and suspending drugs.

Polyvinylpyrrolidone (PVP K-90 works as highly effective binder.
Polyvinylpyrrolidone (PVP K-90) is often used as stabilizer in oral and topical suspension, as a thickener, hydropylizing agent, etc.


-In Cosmetic Industry uses of Polyvinylpyrrolidone (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) is widely applied in a wide range in hair care, skin care & oral care products.
Polyvinylpyrrolidone (PVP K-90) is particularly suitable for formulations where viscosity modification and film forming properties are needed.

Polyvinylpyrrolidone (PVP K-90) is particularly suited to hair styling products.
The higher molecular weight products such as Polyvinylpyrrolidone (PVP K-90) better choice where high viscosity are needed in applications.
Polyvinylpyrrolidone (PVP K-90) is widely used in cosmetics such as Hair Gels, Hair mousses, Liquid hair setting preparations, Pump Sprays.


-TV tube uses of Polyvinylpyrrolidone (PVP K-90):
Polyvinylpyrrolidone (PVP K-90)acts as a film former.
Polyvinylpyrrolidone (PVP K-90) stabilizes emulsions, dispersions and suspensions.
Polyvinylpyrrolidone (PVP K-90) forms clear, hard & glossy film.
Polyvinylpyrrolidone (PVP K-90) is suggested for use in hair styling formulations.


-Pharmaceutical uses of Polyvinylpyrrolidone (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) is a new and excellent pharmaceutical excipient.
Polyvinylpyrrolidone (PVP K-90) is mainly used as binder for tablet, dissolving assistant for injection, flow assistant for capsule, dispersant for liquid medicine and stain, stabilizer for enzyme and heat sensitive drug, coprecipitant for poorly soluble drugs, lubricator and antitoxic assistant for eye drug.
Polyvinylpyrrolidone (PVP K-90) works as excipients in more than one hundreds drugs.


-Cosmetics uses of Polyvinylpyrrolidone (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) can be used as film-forming agent, viscosity-enhancement agent, lubricator and adhesive.
Polyvinylpyrrolidone (PVP K-90) is the key component of hair sprays, mousse, gels and lotions & solution, hair-dying reagent and shampoo in hair-care products.
Polyvinylpyrrolidone (PVP K-90) can be used as assistant in skin-care products, eye makeup, lipstick, deodorant, sunscreen and dentifrice.


-Other uses of Polyvinylpyrrolidone (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) binds to polar molecules exceptionally well, owing to its polarity.
This has led to Polyvinylpyrrolidone (PVP K-90)'s application in coatings for photo-quality ink-jet papers and transparencies, as well as in inks for inkjet printers.


-Skin Cleansers uses of Polyvinylpyrrolidone (PVP K-90):
Because of its strong surfactant qualities, Polyvinylpyrrolidone (PVP K-90) can be a beneficial ingredient in the manufacture of high-quality skin cleansers.
Polyvinylpyrrolidone (PVP K-90) attracts oil, filth, and grime that accumulate on your skin, allowing for easy rinsing.


-Hair Products uses of Polyvinylpyrrolidone (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) is the finest ingredient for both men and women when it comes to making high-quality hair care products.
Polyvinylpyrrolidone (PVP K-90) avoids flaky residues by protecting your hair's natural oils, giving them a lustrous appearance.


-Bubble Bath Formulations uses of Polyvinylpyrrolidone (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) can be utilised to make high-quality bubble bath products that are gentle on all skin types.
Polyvinylpyrrolidone (PVP K-90) exfoliates and removes pollutants, improving skin brightness while washing, degreasing, and hydrating the skin.


-Batteries uses of Polyvinylpyrrolidone (PVP K-90):
*Dispersants:
Dispersion of metal oxides and carbon materials
Soluble in water and NMP to make slurry


-Membranes for water treatment and dialysis uses of Polyvinylpyrrolidone (PVP K-90):
*Compatibilizers, Hydrophilic agents, Pore forming agents:
Soluble in amide solvents, and disperses uniformly in polysulfones, etc.
Highly hydrophilic, Forms pores by washing membranes in water,
Makes hydrophobic film surfaces hydrophilic


-Adhesives uses of Polyvinylpyrrolidone (PVP K-90):
*Pressure-sensitive adhesives, Rewetting adhesives, Food packaging (non-contact):
Adhesion to a wide range of base materials such as plastics, glass, and metals etc.
Highly hydrophilic, highly water-absorbing
Low toxicity


-Ceramics uses of Polyvinylpyrrolidone (PVP K-90):
*Binders and Dispersants:
Excellent dispersion of metal oxides
Binds to a wide range of materials


-Ink, Printing, Fibers and textiles uses of Polyvinylpyrrolidone (PVP K-90):
*Dispersants and Sizing agents:
Pigment dispersion, binding properties
Easily water soluble


-Personal care products uses of Polyvinylpyrrolidone (PVP K-90):
*Setting agents, Thickeners, and Humectants:
Highly adhesive, easily water soluble
Form retention
Hydrophilic


-Semiconductors uses of Polyvinylpyrrolidone (PVP K-90):
*Resist, Polishing solutions, and Cleaning solutions:
Easily water soluble, dispersion of inorganic substances


-Polyvinylpyrrolidone (PVP K-90) is a nonionic, water-soluble polymer with the following features.
Polyvinylpyrrolidone (PVP K-90) can be suitable for the usage of various applications and fields.
*Polyvinylpyrrolidone (PVP K-90) is soluble in various solvents (e.g.: water, alcohol, amide and chlorineated solvents)
*Heat Resistance (Tg=160-170℃)
*Highly hygroscopicity
*Good film-forming properties
*Adhesion
*Ability to form complexes


-In Pharmaceutical Industry uses of Polyvinylpyrrolidone (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) possess excellent adhesive,film-forming,dispersing and thickening properties,and are widely used in the pharmaceutical industry.

Low molecular weight Polyvinylpyrrolidone (PVP K-90), often used as a solubilizing agent, crystallization inhibitor and suspension stabilizer in injection and ophthalmic formulations such as PVP K12,K15,K17.

Medium Molecular Polyvinylpyrrolidone (PVP K-90), often used as binder in tablets,capsules and granules, as a stabilizer for oral suspensions,film-forming agent,solubilizing agent, dispersant for pigments, as an enzyme stabilizer and to improve bioavailability.

High molecular Polyvinylpyrrolidone (PVP K-90), as highly effective binder, often used as stabilizer in oral and topical suspension, as a thickener, hydropylizing agent such as PVP K90.


-Pharmaceuticals uses of Polyvinylpyrrolidone (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) can be used to improve the solubility of a variety of medicines and medications.
The efficacy of end product items can be boosted up to twofold by utilising polyvinyl pyrrolidone as solubility enhancers.



FUNCTION OF POLYVINYLPYRROLIDONE (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) that is considered to be physiologically inert and can be plasticized with water and most common organic plasticizers.
Polyvinylpyrrolidone (PVP K-90) can be used as a viscosity modifier, detergent component, media component in solution chemistry, and for the control of dyes and inks.



FEATURES AND BENEFITS OF POLYVINYLPYRROLIDONE (PVP K-90):
*highly adhesive polymer- excellent tablet binding capacity at low concentrations producing hard, non-friable tablets
*excellent solubility in water and non-polar solvents- can be added as an aqueous or non-aqueous solution to wet granulation tablet processes
*dissolves quickly- does not delay disintegration or dissolution
low solution viscosity- workable solution viscosity at high polymer levels makes it easy to use in granulation and other manufacturing equipment
*non-ionic- solution- viscosity is not affected by changes in pH or the presence of electrolytes, will not form complexes or interact with ionic drug actives
*interfacially active- acts as a drug solubilizer, inhibits crystallization of drug actives and inactive ingredients, stabilizes suspensions, dispersions and emulsions



NATURE OF POLYVINYLPYRROLIDONE (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) is a white powder, with slightly odor. Hygroscopic.
Polyvinylpyrrolidone (PVP K-90) is soluble in water, ethanol, ether and other organic solvents.
Polyvinylpyrrolidone (PVP K-90) has for a variety of substances have a strong ability to complex adsorption.



STANDARD OF POLYVINYLPYRROLIDONE (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) is obtained by polymerizing pyrrolidone and ethylene under pressure to form a vinyl pyrrolidone monomer by the action of a catalyst.
Polyvinylpyrrolidone (PVP K-90) has an average molecular weight of 3.8x 104 and a molecular formula of (C6H9NO)n, where n represents the average number of 1-vinyl-2-pyrrolidone moieties.



PREPARATION METHOD OF POLYVINYLPYRROLIDONE (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) is obtained by polymerizing n-vinyl-2-pyrrolidone in the presence of a basic catalyst or N,N'-vinyltriazole, followed by purification.



TRAIT OF POLYVINYLPYRROLIDONE (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) is white to milky white powder; Odorless or slightly odorous, tasteless; With hygroscopicity.
Polyvinylpyrrolidone (PVP K-90) is soluble in water, ethanol, isopropanol or chloroform, and insoluble in acetone or ether.



SOLUBILITY OF POLYVINYLPYRROLIDONE (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) readily dissolve in water, alcohol, amine and halohydrocarbon, but are not dissolved in acetone and aether etc..
Polyvinylpyrrolidone (PVP K-90) has good solubility, biocompatibility, and physiologically inert, film-forming character, colloid protect ability and compound ability to many organic or inorganic compounds.
Polyvinylpyrrolidone (PVP K-90) is also steady to acid, salt and heat, so it is widely used.



HOME CARE FEATURES AND BENEFITS OF POLYVINYLPYRROLIDONE (PVP K-90):
- acts as rheology modifier
- is a highly adhesive tablet binder
- stabilizes emulsion and structures liquid products
- provides anti-soil redeposition, enzyme stabilization and dye transfer inhibition
- functions as binder and protective coating for enzymes
- provides surface shine enhancement
- forms hard, transparent, glossy films



MANUFACTURING PROCESS OF POLYVINYLPYRROLIDONE (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) is made by a process called polymerization in which N-vinylpyrrolidone is used as the source material along with hydrogen peroxide.



POLYVINYLPYRROLIDONE (PVP K-90) BENEFITS:
*Solubility
Polyvinylpyrrolidone (PVP K-90) is soluble in alcoholic solvents and H2O.
However, Polyvinylpyrrolidone (PVP K-90) is not soluble in hydrocarbons and oils.

Avoid adding Polyvinylpyrrolidone (PVP K-90) when the formula is in the oil-phase.
Polyvinylpyrrolidone (PVP K-90) is also used as a solubilizing agent because of its ability to blend and dissolve a variety of biochemicals and natural ingredients in emulsions.

*Versatile
As a stable ingredient you can add Polyvinylpyrrolidone (PVP K-90) to formulas without worrying about their pH balance.
Polyvinylpyrrolidone (PVP K-90) is blended with a variety of ingredients.
You can use Polyvinylpyrrolidone (PVP K-90) for making a wide range of cosmetic and skincare products.
Polyvinylpyrrolidone (PVP K-90) doesn’t add a huge amount of this powder as it might make your emulsions too thick.

*Non-toxic Nature
Polyvinylpyrrolidone (PVP K-90) is widely used in the cosmetic and pharmaceutical industries, so it is safe for human health.
Polyvinylpyrrolidone (PVP K-90) has been utilized for improving the storage quality of cosmetic products, for instance hair gels, shampoos indicating its non-toxic nature.

*Controlling Viscosity
Polyvinylpyrrolidone (PVP K-90) helps in the reduction of the viscosity of different formulations and can thin creams, lotions, and gels effectively.
The formulations become easier to spread with the help of this powdered cosmetic raw material.

*Cosmetic Product
Polyvinylpyrrolidone (PVP K-90) is used as a dispersant in pigments and it is also effective as a stabilizer for oral care products.
Polyvinylpyrrolidone (PVP K-90) also proves to be effective in improving the bioavailability of solutions.
As a stabilizer, Polyvinylpyrrolidone (PVP K-90) proves to be useful in enhancing the overall shelf-life of cosmetic products.

*Solubility Enhancers
Polyvinylpyrrolidone (PVP K-90) is an excellent solubility enhancer and can be used in the pharmaceutical industry as well as the cosmetic industry to enhance the solubility of various drugs and cosmetic products, thereby increasing their efficacy.



BENEFITS OF POLYVINYLPYRROLIDONE (PVP K-90):
• Strong, stiff hold
• Stabilised emulsions, dispersions and suspensions
• Foam stabiliser
• Excellent compatibility with acrylate thickeners
The usage of Polyvinylpyrrolidone (PVP K-90) depends on the nature of the formulation, thus there is no exact recommended concentration.



IN COSMETIC INDUSTRY USES OF POLYVINYLPYRROLIDONE (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) is used widely in a wide range in hair care, skin care & oral care products.
Polyvinylpyrrolidone (PVP K-90) is particularly suitable for formulations where viscosity modification and film forming properties are required.

Polyvinylpyrrolidone (PVP K-90) is particularly suited to hair styling products.
The medium molecular weights such as Polyvinylpyrrolidone (PVP K-90) are preferred where viscosity is critical in applications, for example, spray.
The higher molecular weight products such as PVP K90 are the best choice where high viscosity are required in applications.

Polyvinylpyrrolidone (PVP K-90) is widely used in cosmetics as followings:
*Hair Gels
*Hair mousses
*Liquid hair setting preparations
*Pump Sprays



INDUSTRIAL APPLICATION OF POLYVINYLPYRROLIDONE (PVP K-90):
* Suspensant, disperser and emulsifier
* Glass fiber
* Detergent
* Plastics and resin
* Ink, paint and coating
* Textile dying and printing
* Film and adhesive
* TV tube



PREFERRED INDUSTRIES OF POLYVINYLPYRROLIDONE (PVP K-90):
*Pharmaceuticals
*Cosmetics
*Food and Beverage
*Chemicals
*Plastics Manufacturing
*Paints and Coatings
*Textiles
*Printing
*Ceramics
*Adhesives



PROPERTY OF POLYVINYLPYRROLIDONE (PVP K-90):
1) Polyvinylpyrrolidone (PVP K-90) exists as white, creamy white powder or aquous solution.
2) Polyvinylpyrrolidone (PVP K-90) can dissolve in water and a variety of organic solvents.
3) Polyvinylpyrrolidone (PVP K-90) has good hygroscopicity, film-forming capability, complexing ability and physiology compatibility



FEATURES AND BENEFITS OF POLYVINYLPYRROLIDONE (PVP K-90):
*highly adhesive polymer- excellent tablet binding capacity at low concentration producing hard, non-friable tablets
*excellent solubility in water and non polar solvents- can be added as an aqueous or non-aqueous solution to wet granulation tablet processes.
*dissolves quickly; does not delay disintegration or dissolution

*forms lubricious hydrogels and coatings for medical devices
low solution viscosity- workable solution viscosity at high polymer levels makes it easy-to-use in granulation and other manufacturing equipment

*non-ionic- solution viscosity is not affected by changes in pH or the presence of electrolytes, ill not form complexes or interact with ionic drug actives
*interfacially active- acts as a drug solubilizer, inhibits crystallization of drug actives and inactive ingredients, stabilizes suspensions, dispersions and emulsions



CLAIMS OF POLYVINYLPYRROLIDONE (PVP K-90):
*Thickeners & Stabilizers
*Film Formers
*glossy/ultra-glossy
*hold
*shine / radiance
*foam quality
*hardening



PROPERTIES OF POLYVINYLPYRROLIDONE (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) is a white or creamy white powder,odourless,nontoxic,non-irritant,dissolves readily in water,alcohol,amine and many other organic solvents.
Polyvinylpyrrolidone (PVP K-90) is widely used in pharmaceutical fields,

Polyvinylpyrrolidone (PVP K-90) is soluble in water and other polar solvents.
For example, Polyvinylpyrrolidone (PVP K-90) is soluble in various alcohols, such as methanol and ethanol, as well as in more exotic solvents like the deep eutectic solvent formed by choline chloride and urea (Relin).

When dry Polyvinylpyrrolidone (PVP K-90) is a light flaky hygroscopic powder, readily absorbing up to 40% of its weight in atmospheric water.
In solution, Polyvinylpyrrolidone (PVP K-90) has excellent wetting properties and readily forms films.
This makes Polyvinylpyrrolidone (PVP K-90) good as a coating or an additive to coatings.
A 2014 study found fluorescent properties of Polyvinylpyrrolidone (PVP K-90) and its oxidized hydrolyzate.



ADVANTAGES OF POLYVINYLPYRROLIDONE (PVP K-90):
-Treatment and prevention of infection in wounds.
-Broad range of microbicidal activity against bacteria, fungi, protozoa, and viruses.
-Universally preferred iodine antiseptic.



BENEFITS OF POLYVINYLPYRROLIDONE (PVP K-90):
- For use in enhancing liquid flavor
- Binds different Ingredients together
- Stabilizes Emulsion & Dispersion
- Maintain the viscosity of formula



FRAGRANCES OF POLYVINYLPYRROLIDONE (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) can be found in volatile compounds, making it a helpful element in fragrances since it helps to preserve the flavour or aroma.
Polyvinylpyrrolidone (PVP K-90)'s outstanding stabilising capabilities are now employed in hair and skin conditioners.



FUNCTIONS OF POLYVINYLPYRROLIDONE (PVP K-90):
*Adhesion
*Dispersion / Aggregation
*Wash / Decomposition / Dissolution



PHARMACODYNAMICS OF POLYVINYLPYRROLIDONE (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) itself has no microbicidal activity.
Polyvinylpyrrolidone (PVP K-90) exhibits rapid, potent, broad-spectrum antimicrobial properties.



MECHANISM OF ACTION OF POLYVINYLPYRROLIDONE (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) is a water-soluble complex that mediates a bactericidal or virucidal action following the gradual liberation of free iodine from the complex at the application site to react with the pathogen.



KEY ATTRIBUTES OF POLYVINYLPYRROLIDONE (PVP K-90):
* Polyvinylpyrrolidone (PVP K-90) can be plasticized with water and most common organic plasticisers.
Polyvinylpyrrolidone (PVP K-90) is considered to be physiologically inert.
* High Polarity and the resultant propensity to form complexes with hydrogen donors, such as phenols and carboxylic acids as well as anionic dyes and inorganic salts.
* Dispersancy, where components in a mixture are uniformly distributed through the use of Polyvinylpyrrolidone (PVP K-90).
* Hydrophilicity, where the water solubility of Polyvinylpyrrolidone (PVP K-90) is its dominant feature and frequently a factor along with other properties valuable to numerous applications.
* Adhesion



HISTORY OF POLYVINYLPYRROLIDONE (PVP K-90):
Polyvinylpyrrolidone (PVP K-90) was first synthesized by BASF chemist Walter Reppe, and a patent was filed in 1939 for one of the derivatives of acetylene chemistry.
Polyvinylpyrrolidone (PVP K-90) was initially used as a blood plasma substitute and later in a wide variety of applications in medicine, pharmacy, cosmetics and industrial production.
BASF continues to make Polyvinylpyrrolidone (PVP K-90), including a pharmaceutical portfolio under the brand name of Kollidon.



BENEFITS OF POLYVINYLPYRROLIDONE (PVP K-90):
• Stabilised emulsions
• Water soluble
• Compatible with inorganic salts
• Forms a hard film



TABLET BINDING OF POLYVINYLPYRROLIDONE (PVP K-90):
The application of Polyvinylpyrrolidone (PVP K-90) in high shear mixers or fluid-bed granulators yields granules that are notably hard, offering a smooth flow and minimal fines.
This result is a binding strength, ideal for sturdy, robust production output.

In terms of binder quantities, Polyvinylpyrrolidone (PVP K-90) is typically between 2% and 5% relative to the tablet weight.
Also suitable for direct compression, even without granulation.
The process calls for a specific humidity level, given the need for the powder mixture to maintain a certain moisture content for optimal binding.

Additionally, Polyvinylpyrrolidone (PVP K-90) alongside microcrystalline cellulose enhances tablet hardness and reinforces their edges.
For lactose monohydrate tablets with a Polyvinylpyrrolidone (PVP K-90) composition via wet granulation, the polymer also proves valuable.
Polyvinylpyrrolidone (PVP K-90)'s apt for modern procedures such as fluidized-bed granulation.

Given its relatively low viscosity, solutions of Polyvinylpyrrolidone (PVP K-90) can be rapidly prepared and easily sprayed, resulting in uniformly hard, dust-free granules.
When pigmentation is involved in the spraying process, Polyvinylpyrrolidone (PVP K-90), Povidone notably enhances the distribution of these pigments.



THE SOLUBILITY DYNAMICS CAN VARY GREATLY BASED ON THE SOLVENT USED:
*Soluble in:
chloroform, cyclohexanol, ethanol abs., glycerol, isopropanol, methanol, methylene chloride, n-butanol, n-propanol, polyethylene glycol 300, polyethylene glycol 400 ,propylene glycol, triethanolamine, and water
*Insoluble in:
pentane, carbon tetrachloride, toluene, xylene



PHYSICAL and CHEMICAL PROPERTIES of POLYVINYLPYRROLIDONE (PVP K-90):
Molecular Formula: (C6H9NO)n
Molar Mass: 111.143
Density: 1,69 g/cm3
Melting Point: 130℃
Boling Point: 90-93 °C
Water Solubility: >=10 g/100 mL at 20 C
Appearance: White powder
Storage Condition: Room Temprature
Melting Point: 130°C
Molecular Formula / Molecular Weight: (C6H9NO)n
Physical State (20 deg.C): Solid
Store Under Inert Gas: Store under inert gas
Condition to Avoid: Air Sensitive,Hygroscopic
CAS RN: 9003-39-8
PubChem Substance ID: 87574664
Merck Index (14): 7697
MDL Number: MFCD01076626
CAS: 9003-39-8
Molecular Formula: (C6H9NO)n

Molecular Weight (g/mol): 111.14
MDL Number: MFCD01076626
InChI Key: WHNWPMSKXPGLAX-UHFFFAOYSA-N
Color: White
Physical Form: Crystalline Powder
Chemical Name or Material: Polyvinylpyrrolidone K 90 Average Molecular Wt. 360,000
Characteristics: White or yellowish-white, hydroscopic powder
Identification A, B, C: Positive
K-value: 81.0-97.2
Residue on ignition: 0.10%max
Vinylpyrrolidone: 0.20% max
Water: 5.0% max
Heavy metals (as Pb): 10ppm max
Hydrazine: 1ppm max
Nitrogen: 11.5-12.8%
Aldehydes (as acetaldehyde): 0.05% max
pH value (5% water solution): 3.0-7.0
Chemical Formula: (C6H9NO)n
CAS Number: 9003-39-8
IUPAC Name: Polyvinylpyrrolidone K 90

INCI Name: Polyvinylpyrrolidone
Molecular Weight: 111.14 grams/mole
Specific Gravity: N/A
Boiling Point: 165 °C
Flash Point: N/A
Odor: Bland
pH Level: 3 to 7
HLB Value: 18
Color: White or off-white
Grade Standard: Technical Grade
Shelf Life: 24 months
Purity (%): 99%
Form: Powder
Alternative Names: PVP
Solubility: Yes

Physical state: powder
Color: beige
Odor: No data available
Melting point/freezing point: No data available
Initial boiling point and boiling range: No data available
Flammability (solid, gas): No data available
Upper/lower flammability or explosive limits: No data available
Flash point: No data available
Autoignition temperature: No data available
Decomposition temperature: No data available
pH: 5,0 - 8 at 10 g/l at 20 °C
Viscosity
Viscosity, kinematic: No data available
Viscosity, dynamic: No data available
Water solubility: No data available
Partition coefficient: n-octanol/water: No data available
Vapor pressure: No data available
Density: No data available
Relative density: No data available
Relative vapor density: No data available
Particle characteristics: No data available

Explosive properties: No data available
Oxidizing properties: No data available
Other safety information: No data available
CAS No.: 9003-39-8
Density: 1.144g/cm3
Molecular Formula: C6H9NO
Boiling point: 217.6°C
Melting point: 130°C
Flashing point: 93.9°C
Stability: Stable.
Incompatible with strong oxidizing agents.
Light sensitive.
Hygroscopic.
Appearance: White powder
Storage: Store at RT.
CAS: 9003-39-8
Mol. Formula: (C6H9NO)n
HSN Code: 39059910
Mol. Weight: ~40000
Appearance (Form): Powder
Appearance (Colour): White
Maximum limits of impurities
Residual monomer content: 0.8%

Water content: 5%
Sulphate ash: 0.02%
pH: 3-7
K-value: 27-32.4
Viscosity: at 25° C (5% aqu. solution) About 2.4 cP
CAS:9003-39-8
MF:CH4
MW:16.04246
EINECS:1312995-182-4
Mol File:9003-39-8.mol Melting point:~165 °C (dec.)(lit.)
Boiling point:90-93 °C
Density 1,69 g/cm3
storage temp. Store at RT.
solubility H2O: soluble100mg/mL
form: powder
color: White to yellow-white
PH: 3.0-5.0
Water Solubility: Soluble in water.
Sensitive: Hygroscopic
Merck: 14,7697
Stability:Stable.
Incompatible with strong oxidizing agents.
Light sensitive.
Hygroscopic.

Molecular Formula: (C6H9NO)n
Grade: Laboratory Reagent (LR)
CAS: 9003-39-8
Molecular Weight: Approx. 40000
CAS No: 9003-39-8
Molecular Weight: ~30kD
Appearance: Off-white to white powder
Vinylpyrrolidone (HPLC)≤0.001%
pH: (10%)3.0-5.0
K Value: 27-32.4
Total aerobic microbial count: <200cfu/g
Total combined yeast/mold counts: <20cfu/g
Molecular Formula / Molecular Weight: (C6H9NO)n
Physical State (20 deg.C): Solid
Store Under Inert Gas: Store under inert gas
Condition to Avoid: Hygroscopic
CAS RN: 9003-39-8
PubChem Substance ID: 87574663
Merck Index (14): 7697
MDL Number: MFCD01076626



FIRST AID MEASURES of POLYVINYLPYRROLIDONE (PVP K-90):
-Description of first-aid measures:
*If inhaled:
If breathed in, move person into fresh air.
*In case of skin contact:
Wash off with soap and plenty of water.
*In case of eye contact:
Flush eyes with water as a precaution.
*If swallowed:
Never give anything by mouth to an unconscious person.
Rinse mouth with water.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of POLYVINYLPYRROLIDONE (PVP K-90):
-Environmental precautions:
No special environmental precautions required.
-Methods and materials for containment and cleaning up:
Keep in suitable, closed containers for disposal.



FIRE FIGHTING MEASURES of POLYVINYLPYRROLIDONE (PVP K-90):
-Extinguishing media:
*Suitable extinguishing media:
Use water spray, alcohol-resistant foam, dry chemical or carbon dioxide.
-Further information:
No data available



EXPOSURE CONTROLS/PERSONAL PROTECTION of POLYVINYLPYRROLIDONE (PVP K-90):
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection
*Skin protection:
Handle with gloves.
Wash and dry hands.
Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0,4 mm
Break through time: 480 min
Splash contact:
Material: Nitrile rubber
Minimum layer thickness: 0,4 mm
Break through time: 480 min
*Body Protection:
Impervious clothing.
*Respiratory protection:
Respiratory protection not required.
-Control of environmental exposure:
No special environmental precautions required



HANDLING and STORAGE of POLYVINYLPYRROLIDONE (PVP K-90):
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Store in cool place.
Keep container tightly closed in a dry and well-ventilated place.



STABILITY and REACTIVITY of POLYVINYLPYRROLIDONE (PVP K-90):
-Reactivity:
No data available
-Chemical stability:
Stable under recommended storage conditions.
-Possibility of hazardous reactions:
No data available
-Conditions to avoid:
No data available



SYNONYMS:
PVP
Polyvidone
Povidone
PVP
Povidone K-90
Poly[1-(2-oxo-1-pyrrolidinyl)ethylene]
PVP
K-30
PVP-K
PVP-K30
PVP-K17
PVP-K25
PVP-K90
Povidone
PVP K 30
Crospovidone
Polyinylpyrrolidone
Polyvinylpyrrolidine
Polyvinylpyrrolidone
Polyvinglpyrrolidone
Polyvinyl pyrrolidone
poly vinyl pyrrolidone
vinisil
vinylpyrrolidonepolymer
PVP K30 USP24
PVP K120
K30 PVP K30
K 30 POVIDONE K 30 BP/USP
PVP H-30
PVP K 30 TECHNICAL GRADE
POLYVINYLPYRROLIDONE K 25
POLYVINYLPYRROLIDONE K 60
POLYVINYLPYRROLIDONE-DIVERGAN RS
POLYVINYLPYRROLIDONE
POLYVIDONUM
PLASDONE XL
PLANT AC
PVPD
Polyvinylpyrolidone PVP/PA Copolymer
POLYVINYLPYRROLIDONEPOLYMERS
polyvinylpyrrolidone, povidone
POLY(N-VINYL-2-PYRROLIDONE) (LOW M.WT.)
POLY(N-VINYL-2-PYRROLIDONE) (MED. M.WT.)
CROSPOIRDONE
POLYVINYLPYRROLIDONE (K30) (POVIDONE)
POLYVINYLPOLYPYRROLIDONE (PVP-40)
pvp2
pvp3
k-30
pvp4
pvpd
pvp
pop
k60
k25
k115
PVP K-90 15% Solution
2-Pyrrolidinone,1-Ethenyl-,Homopolymer
PVP K-90
Plasdone K-90
Agrimer
Albigen A
Hemodesis
K90
Luviskol K90
Plasdone
Povidone
PVPP
PVP-K 90
PVP
Polyvinylpyrrolidone
Poly[1-(2-oxo-1-pyrrolidinyl)ethylene)
Povidone K-90
1-Ethenyl-2-pyrrolidinone polymers
2-Pyrrolidinone,
1-ethenyl, homopolymer
2-Pyrrolidinone, 1-vinyl-, polymers
N-Vinylpyrrolidinone polymer
N-Vinylbutyrolactam polymer
N-Vinylpyrrolidone polymer
Poly(n-vinlybutyrolactam)
Poly(1-vinylpyrrolidinone)
Poly(N-vinylpyrrolidinone)
Vinylpyrrolidinone polymer
Vinylpyrrolidone polymer
Poly[1-(2-oxo-1-pyrrolidinyl)ethylene]
Polyvinylpyrrolidone
PVP
Povidone
1-Ethenylpyrrolidin-2-one
PVP
Povidone
PVPP
Crospovidone
Polyvidone
PNVP
Poly[1-(2-oxo-1-pyrrolidinyl)ethylen]
1-Ethenyl-2-pyrrolidon homopolymer
1-Vinyl-2-pyrrolidinon-Polymere
Kollidon
Poly-N-vinylpyrrolidine
Sokalan K30
Kollidon 30
Povidone 30
1-ethenylpyrrolidin-2-one
Povidone
Polyvidone
Poly[1-(2-oxo-1-pyrrolidinyl)ethylen]
9003-39-8


POLYVINYLPYRROLIDONE K 25
Polyvinylpyrrolidone K 25 exists in white powder or aqueous solution.
Polyvinylpyrrolidone K 25 is a hygroscopic polymer, exists in white or creamy white powder, with molecular weight ranging from 45000 to 58000.


CAS Number: 9003-39-8
EC Number: 1312995-182-4
MDL Number: MFCD00149016
Molecular Formula: (C6H9NO)n



SYNONYMS:
2-Pyrrolidinone,1-ethenyl-,homopolymer, 2-Pyrrolidinone,1-vinyl-,polymers, Albigen A, Kollidon, Luviskol K 30, Plasdone, Plasdone 4, Polyvidone, Poly(1-vinyl-2-pyrrolidinone), Povidone, PVP, Subtosan, Vinisil, Poly(N-vinylpyrrolidinone), Poly(vinylpyrrolidone), Poly(vinylpyrrolidinone), Poly(N-vinylpyrrolidone), Peviston, Polyclar AT, Vinylpyrrolidinone polymer, Peregal ST, Luviskol K 90, Periston, Agent AT 717, Poly(N-vinylbutyrolactam), Poly(1-vinyl-2-pyrrolidone), Poly(N-vinyl-2-pyrrolidinone), N-Vinylpyrrolidinone polymer, N-Vinylpyrrolidone polymer, PVP-K 90, Vinylpyrrolidone polymer, K 60, K 115 (vinyl polymer), N-Vinylbutyrolactam polymer, Periston N, Poly(N-vinyl-2-pyrrolidone), PVP-K 3, Antaron P 804, Poly(N-vinyl-γ-butyrolactam), PVP 40, 143RP, Bolinan, Plasmosan, Protagent, 1-Vinyl-2-pyrrolidone polymer, N-Vinyl-2-pyrrolidone polymer, Kollidon 17, Neocompensan, Hemodez, K 115, MPK 90, AT 717, Kollidon 30, Polyclar H, Polyclar L, PVP 50, Plasdone K 29-32, K 15 (polymer), Plasdone XL, PVP-K 30, PVP-K 60, K 25, Hemodesis, Ganex P 804, K 60 (polymer), Poly(1-vinylpyrrolidinone), Polyplasdone XL, Kollidon 25, PVPP, Aldacol Q, Kollidon 90, Polyvidon, Plasdone C, Povidone K 29-32, PVP-K 25, K 15, Plasdone C 15, Kollidon K 25, SD 13 (polymer), SD 13, PVP 1230, Kollidon K 30, Kollidon CE 50/50, B 7509, K 90, Kollidon 12PF, PVP-K 15, Luviskol K 17, Luviskol K 25, PVP-K 40, NPK 15, NPK 90, Antitox Vana, NP-K 30, Kollidon 17PF, Povidone K 30, Plasdone K 15, 9015-62-7, 9080-59-5, 29386-94-5, 41724-41-8, 53026-73-6, 53026-74-7, 53200-27-4, 61932-72-7, 65931-56-8, 111214-46-1, 116404-61-6, 121414-75-3, 132778-04-2, 132778-05-3, 132834-20-9, 153631-61-9, 170473-90-2, 496908-06-6, 730985-60-1, 862983-74-2, 878051-55-9, 956148-96-2, 1173909-53-9, 1229193-79-6, 1234714-82-9, 1303541-78-7, 1310675-91-2, 1337987-71-9, 1394151-52-0, 1431958-26-7, 1694674-42-4, 1918127-90-8, 2062651-26-5, 2083718-66-3, 2083718-67-4, 2088158-90-9, 2100274-29-9, 2169285-59-8, Polyvinylpyrrolidone, Polyvinyl pyrrolidone, PVP, Polyvidone, 1-Ethenylpyrrolidin-2-one, Copovidone, PVPP, PVP K25, Polyvidone K25, Povidone K25



Polyvinylpyrrolidone K 25 is a family of water-soluble polymers based on N-vinylpyrrolidone that combine a unique set of properties for application in a wide variety of dosage forms.
Polyvinylpyrrolidone K 25 exists as powder or aqueous solution.


Polyvinylpyrrolidone K 25 can dissolve in water and variety of organic solvent .
Polyvinylpyrrolidone K 25 is a hygroscopic polymer, exists in white or creamy white powder, with molecular weight ranging from 45000 to 58000.
Polyvinylpyrrolidone K 25's easily soluble in water and many other organic solvents,with excellent hygroscopisty,film-forming,adhesive,chemical stability and toxicological safeness characters.


Polyvinylpyrrolidone K 25 has low viscosity wet binders with a good balance between adhesive strength and ease of handling.
Polyvinylpyrrolidone K 25 is highly adhesive at low viscosity, thus offering the optimal balance between adhesive strength and ease of handling at 2-5% or 4-7% (Polyvinylpyrrolidone K 25).


Polyvinylpyrrolidone K 25 has excellent solubility in water and a range of organic solvents, and is supplied as a free flowing powder with spherical particle morphology.
Polyvinylpyrrolidone K 25 is a water-soluble polymer made from the monomer N-vinylpyrrolidone


Polyvinylpyrrolidone K 25readily dissolves in water, alcohol, amine and halohydrocarbon, but is not dissolved in acetone and aether etc..
Polyvinylpyrrolidone K 25 has good solubility, biocompatibility, and physiologically inert, film-forming character, colloid protect ability and compound ability to many organic or inorganic compounds.


Polyvinylpyrrolidone K 25 exists as white or yellowish powder and aquous solution.
Polyvinylpyrrolidone K 25 is able to dissolve in water and many organic solvents.
Polyvinylpyrrolidone K 25 is applied in the medicine field as a synthetic polymer vehicle for dispersing and suspending drugs.


Polyvinylpyrrolidone K 25 has multiple uses.
Most commonly Polyvinylpyrrolidone K 25 works as a binder for tablets and capsules, a film former for ophthalmic solutions with a function of being an aid in flavoring liquids and chewable tablets.


Polyvinylpyrrolidone K 25 shares the molecular formula of (C6H9NO)n with other PVP products.
Polyvinylpyrrolidone K 25 most commonly exists as a white to slightly off-white powder.
Polyvinylpyrrolidone K 25 formulations are applied in the medical fields with its property of dissolving in both water and oil solvents.


Polyvinylpyrrolidone K 25 is a white powder and odorless
Polyvinylpyrrolidone K 25 exists as white or yellowish powder and aquous solution. It can dissolve in water and a variety of organic solvents.


Polyvinylpyrrolidone K 25 has good hygroscopicity, filmforming capability, complexing ability and physiology compatibility.
Polyvinylpyrrolidone K 25 is a multifunctional synthetic polymer.



USES and APPLICATIONS of POLYVINYLPYRROLIDONE K 25:
Polyvinylpyrrolidone K 25 is generally used in cosmetics , surfactants , pharmaceutical industry and other related industrial fields.
Main Applications of Polyvinylpyrrolidone K 25: Batteries, Films for water treatment and dialysis, Adhesives, Ceramics, Ink, Printing, Fibers and textiles, Personal care products, and Semiconductors.


Applications of Polyvinylpyrrolidone K 25: Daily Use Materials, Environment & Water treatments, Inks & Coatings,and Life science.
Applications of Polyvinylpyrrolidone K 25: tablet binding, film coating, drug solubilization, and viscosifier.


Polyvinylpyrrolidone K 25 is commonly used as binders for the development of tablet formulations, whether manufactured by wet granulation, dry granulation, or direct compression.
Polyvinylpyrrolidone K 25 is used in solid dispersion formulations to enhance the solubility of active pharmaceutical ingredients and increase bioavailability.


Polyvinylpyrrolidone K 25 is also used to inhibit recrystallization in liquid soft gels and free sugar syrups.
Industrial Application of Polyvinylpyrrolidone K 25: Suspensant, disperser and emulsifier, Glass fiber, Detergent, Plastics and resin, Ink, paint and coating, Textile dying and printing, Film and adhesive, TV tube

Polyvinylpyrrolidone K 25 is used as a special additive for batteries, ceramics, fiberglass, inks, and inkjet paper, and in the chemical-mechanical planarization process
Polyvinylpyrrolidone K 25 is also steady to acid, salt and heat, so it is widely used.


Polyvinylpyrrolidone K 25 can be used as stabilizer, emulsifier, suspension agent, solubilizer, protective colloid and complexing agent.
Polyvinylpyrrolidone K 25 is used in the pharmaceutical industry as a synthetic polymer vehicle for dispersing and suspending drugs.


Polyvinylpyrrolidone K 25 has multiple uses, including as a binder for tablets and capsules, a film former for ophthalmic solutions, to aid in flavoring liquids and chewable tablets, and as an adhesive for transdermal systems.
Applications of Polyvinylpyrrolidone K 25: Daily Use Materials, Environment & Water treatments, Inks & Coatings,and Life science.


Polyvinylpyrrolidone K 25 is most widely utizlied as a suspending, dispersing, and emulsifying agent in paint, coating, adhesive, ink, and textile dyeing industries.
Polyvinylpyrrolidone K 25 can be used as stabilizer, emulsifier, suspension agent, solubilizer, protective colloid and complexing agent.


-Polyvinylpyrrolidone K 25 is widely used in cosmetics as followings
*Hair Gels
*Hair mousses
*Liquid hair setting preparations
*Pump Sprays


-In Pharmaceutical Industry uses of Polyvinylpyrrolidone K 25:
Polyvinylpyrrolidone K 25 possess excellent adhesive,film-forming,dispersing and thickening properties,and are widely used in the pharmaceutical industry.
Polyvinylpyrrolidone K 25 is often used as a solubilizing agent, crystallization inhibitor and suspension stabilizer in injection and ophthalmic formulations such as PVP K12,K15,K17.

Medium Molecular PVP-K, often used as binder in tablets,capsules and granules, as a stabilizer for oral suspensions,film-forming agent,solubilizing agent, dispersant for pigments, as an enzyme stabilizer and to improve bioavailability such as Polyvinylpyrrolidone K 25, K30.
Polyvinylpyrrolidone K 25 is used as highly effective binder, often used as stabilizer in oral and topical suspension, as a thickener, hydropylizing agent such as PVP K90.


-In Cosmetic Industry use of Polyvinylpyrrolidone K 25:
Polyvinylpyrrolidone K 25 is used widely in a wide range in hair care, skin care & oral care products.
Polyvinylpyrrolidone K 25 is particularly suitable for formulations where viscosity modification and film forming properties is required.
Polyvinylpyrrolidone K 25 is particularly suited to hair styling products.
The medium molecular weights such as PVP K30 are preferred where viscosity is critical in applications, for example, spray.



FEATURES AND BENEFITS OF POLYVINYLPYRROLIDONE K 25:
*highly adhesive polymer- excellent tablet binding capacity at low concentrations producing hard, non-friable tablets
*excellent solubility in water and non-polar solvents- can be added as an aqueous or non-aqueous solution to wet granulation tablet processes
*Polyvinylpyrrolidone K 25 dissolves quickly- does not delay disintegration or dissolution
*low solution viscosity- workable solution viscosity at high polymer levels makes Polyvinylpyrrolidone K 25 easy to use in granulation and other manufacturing equipment
*non-ionic- solution- viscosity is not affected by changes in pH or the presence of electrolytes, will not form complexes or interact with ionic drug actives
*interfacially active- acts as a drug solubilized, Polyvinylpyrrolidone K 25 inhibits crystallization of drug actives and inactive ingredients, stabilizes suspensions, dispersions and emulsions
*controlled nitrite levels for APIs sensitive to nitrosamine formation



CHARACTERS OF POLYVINYLPYRROLIDONE K 25:
Polyvinylpyrrolidone K 25 has good hygroscopicity, filmforming capability, complexing ability and physiology compatibility.
Polyvinylpyrrolidone K 25 is a homopolymer of vinylpyrrolidone in a white to milky white-colored powder form.
Polyvinylpyrrolidone K 25 has a K value of 22-28 and a total solids content of greater than 95%.



FUNCTIONS OF POLYVINYLPYRROLIDONE K 25:
*Adhesion,
*Dispersion / Aggregation,
*Wash / Decomposition / Dissolution



PHYSICAL and CHEMICAL PROPERTIES of POLYVINYLPYRROLIDONE K 25:
PSA: 20.31000
XLogP3: 0.69020
Appearance: Polyvinylpyrrolidone is a white powder.
Compatible with a wide range of hydrophilic and hydrophobic resins.
Density: 1.23-1.29 g/cm3
Melting Point: 160 °C
Boiling Point: >300 °C
Flash Point: 93.9ºC
Water Solubility: H2O: soluble 100mg/mL
Storage Conditions: Store at RT.
Vapor Pressure: 0.09 mmHg

Vapor Density: 3.83
Explosive limit: Explosive limits , vol% in air: 1.4-10
Odor: ODORLESS
PH: Between 3,0 and 7,0 (5 % solution)
Reactive Group: Amines, Phosphines, and Pyridines
Reactivity Profile: POLYVINYLPYRROLIDONE is a polymeric material and probably has low reactivity.
It reacts as a weak base.
Autoignition Temperature: 364 °C
Properties:

Appearance (Form): Powder or flakes
Appearance (Colour): White to yellowish
K-value: 23-27
pH (5% solution): 3-7
Water: Max 5.0%
CAS: 9003-39-8
Molecular Formula: (C6H9NO)n
Molecular Weight: ~24000, Approx. 10000, 111.14200
Exact Mass: 111.06800
EC Number: 201-800-4
UNII: 76H9G81541

ICSC Number: 1478
NSC Number: 683040, 142693, 114022, 10222
DSSTox ID: DTXSID2021440, DTXSID0025941
Color/Form: Faintly yellow solid, WHITE TO CREAMY WHITE POWDER,
White, free-flowing, amorphous powder or aqueous solution
HS CODE: 39059910, 3905990000
Categories: Amides
InChIKey: WHNWPMSKXPGLAX-UHFFFAOYSA-N
Product Name: Poly(vinylpyrrolidone)
Grade: Laboratory Reagent (LR)
CAS No.: 9003-39-8



FIRST AID MEASURES of POLYVINYLPYRROLIDONE K 25:
-Description of first-aid measures
*General advice:
Show this material safety data sheet to the doctor in attendance.
*If inhaled:
After inhalation:
Fresh air.
*In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with
water/ shower.
*In case of eye contact:
After eye contact:
Rinse out with plenty of water.
Call in ophthalmologist.
Remove contact lenses.
*If swallowed:
After swallowing:
Immediately make victim drink water (two glasses at most).
Consult a physician.
-Indication of any immediate medical attention and special treatment needed.
No data available



ACCIDENTAL RELEASE MEASURES of POLYVINYLPYRROLIDONE K 25:
-Environmental precautions:
Do not let product enter drains.
-Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.
Observe possible material restrictions.
Take up dry.
Dispose of properly.
Clean up affected area.



FIRE FIGHTING MEASURES of POLYVINYLPYRROLIDONE K 25:
-Extinguishing media:
*Suitable extinguishing media:
Carbon dioxide (CO2)
Foam
Dry powder
*Unsuitable extinguishing media:
For this substance/mixture no limitations of extinguishing agents are given.
-Further information:
Prevent fire extinguishing water from contaminating surface water or the ground water system.



EXPOSURE CONTROLS/PERSONAL PROTECTION of POLYVINYLPYRROLIDONE K 25:
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
Safety glasses
*Body Protection:
protective clothing
*Respiratory protection:
Recommended Filter type: Filter A
-Control of environmental exposure:
Do not let product enter drains.



HANDLING and STORAGE of POLYVINYLPYRROLIDONE K 25:
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Tightly closed.
Dry.



STABILITY and REACTIVITY of POLYVINYLPYRROLIDONE K 25:
-Chemical stability:
The product is chemically stable under standard ambient conditions (room temperature) .
-Possibility of hazardous reactions:
No data available


POLYVINYLPYRROLIDONE K 30

Polyvinylpyrrolidone K 30, also known as Polyvinylpyrrolidone K 30, is a chemical compound belonging to the family of polyvinylpyrrolidone polymers.
Polyvinylpyrrolidone K 30 is a water-soluble polymer with various applications in the pharmaceutical, cosmetic, and industrial sectors.
Polyvinylpyrrolidone K 30 is produced by the polymerization of the monomer N-vinylpyrrolidone (NVP).

CAS Number: 9003-39-8
EC Number: 500-003-7



APPLICATIONS


Polyvinylpyrrolidone K 30 is commonly used as a binder in pharmaceutical tablet formulations to improve tablet integrity and drug release.
Polyvinylpyrrolidone K 30 finds application as a film-forming agent in topical preparations such as creams, ointments, and gels.

Polyvinylpyrrolidone K 30 is utilized in hair care products like hair sprays and styling gels for its film-forming and holding properties.
Polyvinylpyrrolidone K 30 is employed as a stabilizer and viscosity enhancer in oral care products like toothpaste and mouthwash.
Polyvinylpyrrolidone K 30 is used in adhesives to improve the bonding strength and performance of various materials.

Polyvinylpyrrolidone K 30 finds applications in the coatings industry as a film-forming agent and binder for paints, inks, and coatings.
Polyvinylpyrrolidone K 30 is used in the food and beverage industry as a clarifying agent and stabilizer for juices and wines.

Polyvinylpyrrolidone K 30 acts as a protective colloid and stabilizer in chemical processes, assisting in dispersion and preventing agglomeration.
Polyvinylpyrrolidone K 30 is utilized in the textile industry as a sizing agent to improve the strength and handling properties of fabrics.
Polyvinylpyrrolidone K 30 finds application in the formulation of photographic films and papers as an emulsion stabilizer.
Polyvinylpyrrolidone K 30 is used in nanotechnology applications to aid in the synthesis and stabilization of nanoparticles.

Polyvinylpyrrolidone K 30 serves as a carrier and stabilizer for herbal extracts in the formulation of pharmaceutical and cosmetic products.
Polyvinylpyrrolidone K 30 is utilized in detergent formulations as a viscosity modifier and stabilizer.
Polyvinylpyrrolidone K 30 finds application in biomedical research for drug delivery systems, tissue engineering, and biomaterials.

Polyvinylpyrrolidone K 30 is used in water treatment processes as a flocculant and coagulant aid.
Polyvinylpyrrolidone K 30 acts as a binder and viscosity enhancer in ink formulations, improving print quality and stability.
Polyvinylpyrrolidone K 30 finds application in the agricultural industry as a dispersing agent and stabilizer in pesticide and fertilizer formulations.

Polyvinylpyrrolidone K 30 is employed in the formulation of emulsions to stabilize oil-in-water and water-in-oil systems.
Polyvinylpyrrolidone K 30 is used as a binder and film-forming agent in the production of paints and coatings.
Polyvinylpyrrolidone K 30 finds applications in the development of electrolytes for batteries and fuel cells to enhance conductivity and stability.

Polyvinylpyrrolidone K 30 is used in ceramic formulations as a binder and rheology modifier for improved product integrity.
Polyvinylpyrrolidone K 30 acts as a retention aid in the papermaking process, improving the retention of fillers and fine particles in paper.
Polyvinylpyrrolidone K 30 is utilized in water-based ink formulations as a dispersant to enhance pigment dispersion and stability.

Polyvinylpyrrolidone K 30 finds application as a formulation aid in herbicides and pesticides, improving stability and dispersion of active ingredients.
Polyvinylpyrrolidone K 30 is used in photolithography processes in the semiconductor industry as a photoresist additive for pattern transfer.


Polyvinylpyrrolidone K 30 (Polyvinylpyrrolidone K 30) finds various applications in different industries.
Here are some common applications:

Pharmaceuticals:
Polyvinylpyrrolidone K 30 is widely used in the pharmaceutical industry as a binder for tablet formulations.
Polyvinylpyrrolidone K 30 helps to hold the ingredients together and improve tablet hardness and strength.

Cosmetics:
Polyvinylpyrrolidone K 30 is used in cosmetic formulations as a film-forming agent, viscosity enhancer, and stabilizer.
Polyvinylpyrrolidone K 30 can improve the texture and stability of creams, lotions, and gels.

Personal Care Products:
Polyvinylpyrrolidone K 30 is found in personal care products such as hair sprays, mousses, and styling gels, where it acts as a film-forming agent, providing hold and setting properties.

Oral Care Products:
Polyvinylpyrrolidone K 30 is utilized in oral care products like toothpaste and mouthwash to enhance texture, increase viscosity, and stabilize the formulations.

Adhesives:
Polyvinylpyrrolidone K 30 is used in adhesive formulations to improve bonding properties and increase the strength of the adhesive.

Coatings:
Polyvinylpyrrolidone K 30 is used as a binder and film-forming agent in various coating applications, including paints, inks, and coatings for pharmaceutical tablets.

Food and Beverage:
Polyvinylpyrrolidone K 30 is used as a clarifying agent, stabilizer, and adhesive in food and beverage applications, such as wine clarification and juice stabilization.

Chemical Industry:
Polyvinylpyrrolidone K 30 finds applications in the chemical industry as a stabilizer, dispersant, and protective colloid in various chemical processes and formulations.

Textile Industry:
Polyvinylpyrrolidone K 30 is used in the textile industry as a sizing agent to improve the strength and stiffness of fabrics during weaving.

Photography:
Polyvinylpyrrolidone K 30 is employed in photographic films and papers as a protective colloid and emulsion stabilizer.

Nanotechnology:
Polyvinylpyrrolidone K 30 is used in the synthesis and stabilization of nanoparticles and nanocomposites, providing improved dispersion and controlled particle growth.

Herbal Extracts:
Polyvinylpyrrolidone K 30 is used as a carrier and stabilizer for herbal extracts in pharmaceutical and cosmetic preparations.

Detergents:
Polyvinylpyrrolidone K 30 is used in detergent formulations as a viscosity modifier and stabilizer.

Biomedical Applications:
Polyvinylpyrrolidone K 30 finds applications in biomedical research, including drug delivery systems, tissue engineering, and biomaterials.

Water Treatment:
Polyvinylpyrrolidone K 30 is utilized in water treatment processes as a flocculant and coagulant aid.

Inks:
Polyvinylpyrrolidone K 30 is used in ink formulations as a binder and viscosity enhancer for improved print quality and stability.

Agriculture:
Polyvinylpyrrolidone K 30 is used in agricultural formulations as a dispersing agent and stabilizer for pesticides and fertilizers.

Emulsions:
Polyvinylpyrrolidone K 30 is employed in the formulation of emulsions to stabilize oil-in-water and water-in-oil systems.

Paints and Coatings:
Polyvinylpyrrolidone K 30 is used as a binder and film-forming agent in paint and coating formulations to improve adhesion and durability.

Electrolytes:
Polyvinylpyrrolidone K 30 is used in electrolyte formulations for batteries and fuel cells to enhance conductivity and stability.

Ceramic Industry:
Polyvinylpyrrolidone K 30 is utilized in the ceramic industry as a binder and rheology modifier in ceramic pastes and slurries.
Polyvinylpyrrolidone K 30 helps improve the green strength of ceramic products.

Paper Industry:
Polyvinylpyrrolidone K 30 is used in the papermaking process as a retention aid, improving the retention of fine particles and fillers in the paper.

Water-Based Inks:
Polyvinylpyrrolidone K 30 finds applications in water-based ink formulations as a dispersant, improving pigment dispersion and ink stability.

Herbicides and Pesticides:
Polyvinylpyrrolidone K 30 is employed as a formulation aid in herbicides and pesticides to enhance the stability and dispersion of active ingredients.

Photolithography:
Polyvinylpyrrolidone K 30 is used in photolithography processes in the semiconductor industry as a photoresist additive, assisting in pattern transfer.

Fuel Additives:
Polyvinylpyrrolidone K 30 is used as a pour point depressant and anti-icing agent in fuel additives, preventing the formation of wax crystals and ice.

Personal Care Wipes:
Polyvinylpyrrolidone K 30 is incorporated into personal care wipes to improve wetting and release properties, enhancing their effectiveness.

Solid Dispersions:
Polyvinylpyrrolidone K 30 is used in solid dispersion formulations to enhance the solubility and bioavailability of poorly soluble drugs.

Metal Extraction:
Polyvinylpyrrolidone K 30 is employed in metal extraction processes as a complexing agent, aiding in the separation and purification of metals.

Textile Printing:
Polyvinylpyrrolidone K 30 is used as a printing agent in textile printing processes, providing adhesion and color fixation properties.

Hydrogels:
Polyvinylpyrrolidone K 30 is utilized in the production of hydrogels, which have applications in wound dressings, drug delivery systems, and tissue engineering.

Analytical Chemistry:
Polyvinylpyrrolidone K 30 is used in various analytical techniques, such as gel electrophoresis and chromatography, as a matrix or stabilizer.

Catalyst Support:
Polyvinylpyrrolidone K 30 is employed as a support material for catalysts, improving their dispersion and stability.

Polymer Stabilizer:
Polyvinylpyrrolidone K 30 can be used as a stabilizer for other polymers, enhancing their thermal and UV stability.

Personal Care Products:
Polyvinylpyrrolidone K 30 is incorporated into personal care products such as shampoos, conditioners, and styling products to provide conditioning and styling benefits.

Solvent Filtration:
Polyvinylpyrrolidone K 30 is used in filtration processes as a filter aid to improve the efficiency of solvent filtration.

Dyeing and Printing:
Polyvinylpyrrolidone K 30 finds applications in dyeing and printing processes in the textile industry, improving color retention and fastness.

Artificial Tears:
Polyvinylpyrrolidone K 30 is utilized in the formulation of artificial tears and eye drops to provide lubrication and relief for dry eyes.

Drug Delivery Systems:
Polyvinylpyrrolidone K 30 is used in the development of various drug delivery systems, including microspheres, nanoparticles, and transdermal patches.

Reactive Extrusion:
Polyvinylpyrrolidone K 30 is employed in reactive extrusion processes to modify the properties of polymers and enhance their performance.



DESCRIPTION


Polyvinylpyrrolidone K 30, also known as Polyvinylpyrrolidone K 30, is a chemical compound belonging to the family of polyvinylpyrrolidone polymers.
Polyvinylpyrrolidone K 30 is a water-soluble polymer with various applications in the pharmaceutical, cosmetic, and industrial sectors.
Polyvinylpyrrolidone K 30 is produced by the polymerization of the monomer N-vinylpyrrolidone (NVP).

Polyvinylpyrrolidone K 30 is characterized by its high molecular weight and versatility in forming complexes and stabilizing substances. Polyvinylpyrrolidone K 30 is widely used as a binder, film former, viscosity enhancer, and solubility enhancer in various formulations.

Polyvinylpyrrolidone K 30 is a water-soluble polymer widely used in various industries.
Polyvinylpyrrolidone K 30 is a high molecular weight polymer with excellent solubility in water and other polar solvents.
Polyvinylpyrrolidone K 30 is a white or slightly yellowish powder with a characteristic odor.

Polyvinylpyrrolidone K 30 has a wide range of applications in pharmaceuticals, cosmetics, and industrial processes.
Polyvinylpyrrolidone K 30 has good film-forming properties, making it suitable for coatings and adhesives.

Polyvinylpyrrolidone K 30 acts as a binder, stabilizer, and viscosity enhancer in formulations.
Polyvinylpyrrolidone K 30 has excellent complexing properties, making it useful in drug delivery systems and formulations.
Polyvinylpyrrolidone K 30 has low toxicity and is considered safe for use in pharmaceutical and cosmetic products.
Polyvinylpyrrolidone K 30 can improve the solubility and dissolution rate of poorly soluble drugs.

Polyvinylpyrrolidone K 30 is often used as a suspending agent in liquid formulations to prevent settling of solid particles.
Polyvinylpyrrolidone K 30 can enhance the stability of emulsions, preventing phase separation and coalescence.
Polyvinylpyrrolidone K 30 has excellent moisture absorption properties, making it useful as a humectant.

Polyvinylpyrrolidone K 30 can improve the texture and rheological properties of cosmetic products, such as creams and gels.
Polyvinylpyrrolidone K 30 is compatible with a wide range of active ingredients and excipients in formulations.
Polyvinylpyrrolidone K 30 is commonly used as a tablet binder in pharmaceutical formulations.

Polyvinylpyrrolidone K 30 can increase the disintegration and dissolution of tablets, improving drug release.
Polyvinylpyrrolidone K 30 is often employed as a stabilizer in suspensions and emulsions, preventing particle aggregation.
Polyvinylpyrrolidone K 30 has good adhesion properties, making it suitable for transdermal patches and medical adhesives.

Polyvinylpyrrolidone K 30 can act as a protective colloid, preventing precipitation and flocculation in formulations.
Polyvinylpyrrolidone K 30 is compatible with various processing techniques, including spray drying and granulation.

Polyvinylpyrrolidone K 30 is used in the production of controlled-release dosage forms and oral solid dispersions.
Polyvinylpyrrolidone K 30 is also employed in the synthesis of nanoparticles and nanocomposites.
Polyvinylpyrrolidone K 30 can improve the stability and bioavailability of poorly soluble active ingredients.
Polyvinylpyrrolidone K 30 has good thermal stability and can withstand processing conditions at elevated temperatures.
Polyvinylpyrrolidone K 30 is a versatile ingredient that contributes to the performance and quality of numerous products across different industries.



PROPERTIES


Physical Properties:

Molecular Formula: (C6H9NO)n
Molecular Weight: Varies based on polymerization degree (typically around 40,000 g/mol)
Appearance: White to off-white powder or granules
Odor: Odorless
Solubility: Soluble in water, ethanol, isopropanol, and other polar solvents
pH (1% aqueous solution): Typically in the range of 3-7
Density: Approximately 1.1-1.3 g/cm3
Melting Point: Decomposes without a distinct melting point


Chemical Properties:

Polymer Type: Synthetic polymer derived from the monomer vinylpyrrolidone
Polymerization: Formed through radical polymerization of vinylpyrrolidone monomers
Chemical Stability: Stable under normal conditions, but may degrade at high temperatures or in the presence of oxidizing agents
Hygroscopicity: Hygroscopic nature, absorbing moisture from the environment
Cross-Linking: Can be cross-linked with certain reagents or by irradiation to modify its properties


Functional Properties:

Film-Forming: Exhibits film-forming properties, forming transparent and flexible films
Solvent Retention: Has the ability to retain certain solvents within its structure
Adhesion: Provides good adhesion to various substrates, including skin and mucous membranes
Complexation: Forms complexes with certain compounds, enhancing stability and solubility
Hydrophilicity: Has a high affinity for water, resulting in good water solubility and wetting properties
Viscosity: Can increase the viscosity of solutions, gels, and dispersions
Stabilizing: Acts as a stabilizer for emulsions, suspensions, and colloidal systems
Binding: Exhibits binding properties, providing cohesion and strength to formulations
Chelating: Has chelating properties, forming complexes with metal ions
Compatibility: Compatible with a wide range of other polymers, surfactants, and active ingredients



FIRST AID


Inhalation:

If inhaled, remove the affected person to a well-ventilated area.
If symptoms such as coughing, difficulty breathing, or irritation persist, seek medical attention.


Skin Contact:

Remove contaminated clothing and rinse the affected skin area with plenty of water.
Wash gently with mild soap and water.
If irritation or redness occurs, seek medical advice.


Eye Contact:

Flush the eyes gently with water for at least 15 minutes, ensuring that contact lenses, if present, are removed.
Seek immediate medical attention if irritation, pain, or visual abnormalities persist.


Ingestion:

Rinse the mouth thoroughly with water.
Do not induce vomiting unless instructed to do so by medical personnel.
Seek medical attention immediately and provide information about the ingested amount and any symptoms observed.



HANDLING AND STORAGE


Handling:

Personal Protection:
When handling Polyvinylpyrrolidone K 30, wear appropriate personal protective equipment (PPE) such as gloves, safety goggles, and a lab coat or protective clothing.
Follow good laboratory practices and adhere to safety protocols to minimize the risk of exposure.

Ventilation:
Use Polyvinylpyrrolidone K 30 in a well-ventilated area to ensure adequate airflow and prevent the accumulation of vapors or dust.
If working in an enclosed space, ensure the availability of local exhaust ventilation or use respiratory protection if needed.

Avoid Ingestion and Inhalation:
Do not eat, drink, or smoke while handling Polyvinylpyrrolidone K 30.
Avoid inhalation of dust or aerosolized particles by using appropriate engineering controls such as fume hoods or respiratory protection.

Prevent Skin and Eye Contact:
Minimize direct contact with Polyvinylpyrrolidone K 30.
In case of skin contact, promptly wash the affected area with mild soap and water.
Wear protective gloves and safety goggles to prevent eye contact.


Storage:

Temperature and Humidity:
Store Polyvinylpyrrolidone K 30 in a cool, dry place away from direct sunlight and heat sources.
Maintain storage conditions within the recommended temperature range specified by the manufacturer to prevent degradation or changes in properties.

Containers:
Store Polyvinylpyrrolidone K 30 in tightly sealed containers that are resistant to moisture and contaminants.
Keep containers properly labeled with relevant information, including product name, batch number, and date of receipt.

Separate from Incompatible Substances:
Store Polyvinylpyrrolidone K 30 away from incompatible materials, such as strong oxidizing agents or reactive chemicals, to prevent potential reactions or contamination.
Follow proper segregation practices and ensure compatibility with neighboring stored substances.

Handling Precautions:
Avoid rough handling or excessive agitation of containers to prevent damage or spills.
Keep the storage area clean and free from debris, spills, or potential hazards.

Security:
Store Polyvinylpyrrolidone K 30 in a designated area accessible only to authorized personnel.
Follow local regulations and guidelines regarding the storage and handling of chemical substances.



SYNONYMS


Povidone K 30
Polyvidone K 30
Polyvinylpyrrolidone-30
PVP K30
PVP/VA copolymer
PVP polymer
Poly(1-vinyl-2-pyrrolidinone) K 30
Polyvidonum K 30
Polyvinylpyrrolidone K30
Povidone-30
PVPP K 30
Copovidone K 30
PVP/VP K 30
Povidone-30K
VP/VA copolymer K 30
Polyvinylpolypyrrolidone K 30
Polyvinylpyrrolidone K-30
PVP-30
Poly(vinylpyrrolidone) K 30
PVP K-30
Polyvinylpyrrolidone-30K
Povidone K30
PVP (K30)
Poly(vinylpyrrolidinone) K 30
PVP K30 Powder
Povidone K30-5
Polyvidone K30
Poly(vinylpyrrolidone) K 30
PVP K30-NF
PVP/VA K30
Povidone K-30P
Polyvidone-30
Polyvinylpyrrolidone K30-NF
PVP K30 USP
PVP K30 Pharma Grade
Polyvinylpyrrolidone-30K
Polyvidonum K30
Povidone K-30 USP
Polyvidone-30K
PVP/VA K30-VP
Povidone K-30 Pharma Grade
Poly(vinylpyrrolidone) K30
PVP/VA K30 Copolymer
PVP K30 for Pharmaceuticals
Polyvidone K-30
Polyvinylpyrrolidone K30-VP
Povidone K30 Powder
Polyvidonum K-30
PVP K30 for Cosmetics
Povidone-30K Powder
POLYVINYLPYRROLIDONE PVP K30

Polyvinylpyrrolidone (Polyvinylpyrrolidone PVP K30) is a polymer that is widely used in various industries due to its versatility and unique properties.
Polyvinylpyrrolidone PVP K30 is commonly used in pharmaceuticals, cosmetics, personal care products, and other applications.

CAS Number: 9003-39-8
EC Number: 202-919-7

Polyvinylpyrrolidone, PVP, Povidone, Polyvidone, Crospovidone, Povidonum, Polyvinylpyrrolidinone, Poly[N-vinylpyrrolidone], 1-Vinyl-2-pyrrolidinone homopolymer, PVP/VA copolymer, N-Vinyl-2-pyrrolidinone polymer, 1-Ethenyl-2-pyrrolidinone homopolymer, 1-Vinyl-2-pyrrolidinone polymer, Polyvidonum, Vinol VP, Collidone, Polymethacrylamidopropyltrimethylammonium chloride, Kollidon, Polyvinylpyrrolidinone homopolymer, 1-Vinyl-2-pyrrolidinone copolymer, N-Vinyl-2-pyrrolidinone homopolymer, Poly(N-vinylpyrrolidone), Evinol, Polyvinylpyrrolidone polymer, Luvitec, Kollidon VA, Vinamul, Kollidon SR, Copovidone, Luviskol, Copovidon, Polvinylpyrrolidone, Luviskol K 30, Luviskol VA 64, Kollidon CL, Povidon, Kollidon CL-M, Kollidon 30, Kollidon K 30, Luviskol K90, Luviskol Plus, Kollidon 25, Kollidon K17, Luviskol Plus 30, Kollidon K 90, Povidonum k29/32, Kollidon 90, Luviskol Plus 90, Copolyvidone, Luviskol K 90, Kollidon SR 30, Kollidon SR 90, Kollidon K 17, Luvitec K30, Povidone K30, Luviskol K 17, Kollidon 12PF, Luvitec K17, Kollidon 17, Luviskol K 29, Kollidon 12P, Luvitec K90.



APPLICATIONS


Polyvinylpyrrolidone PVP K30 is used in the manufacture of contact lenses and intraocular lenses due to its biocompatibility and optical clarity.
Polyvinylpyrrolidone PVP K30 serves as a viscosity modifier in printing inks, adhesives, and paints.

Polyvinylpyrrolidone PVP K30 is used in the production of adhesives, sealants, and coatings for various industrial applications.
Polyvinylpyrrolidone PVP K30 is employed as a binding agent in ceramic and metal powder processing.

Polyvinylpyrrolidone PVP K30 is used in the formulation of crop protection products such as herbicides and insecticides.
Polyvinylpyrrolidone PVP K30 serves as a carrier for active ingredients in agricultural formulations to improve their dispersibility and efficacy.
Polyvinylpyrrolidone PVP K30 is used as a stabilizer in colloidal suspensions and as a flocculating agent in wastewater treatment.

Polyvinylpyrrolidone PVP K30 is employed as a lubricant and anti-static agent in textile processing.
Polyvinylpyrrolidone PVP K30 is a versatile polymer with a wide range of applications, contributing to the development of innovative products and technologies in various industries.

Polyvinylpyrrolidone (Polyvinylpyrrolidone PVP K30) is widely used as a binder in pharmaceutical tablet formulations.
Polyvinylpyrrolidone PVP K30 enhances the cohesion of tablet ingredients and facilitates their compression into uniform tablets.

Polyvinylpyrrolidone PVP K30 is used as a solubilizing agent in oral solid dosage forms to improve the dissolution and bioavailability of poorly soluble drugs.
Polyvinylpyrrolidone PVP K30 is employed as a stabilizer and dispersant in liquid formulations such as suspensions and emulsions.

Polyvinylpyrrolidone PVP K30 is utilized as a film-forming agent in oral thin films and transdermal patches for drug delivery.
Polyvinylpyrrolidone PVP K30 is used in the manufacture of wound dressings and surgical adhesives due to its biocompatibility and adhesive properties.

Polyvinylpyrrolidone PVP K30 is employed as a clarifying agent in beverages to remove haze-causing particles and improve clarity.
Polyvinylpyrrolidone PVP K30 serves as a stabilizer in cosmetic and personal care products such as creams, lotions, and hair styling gels.

Polyvinylpyrrolidone PVP K30 is used as a thickening agent in hair care products to improve viscosity and texture.
Polyvinylpyrrolidone PVP K30 is employed as a film former in hair sprays and mousses to provide strong hold and humidity resistance.

Polyvinylpyrrolidone PVP K30 is utilized in the production of contact lenses and intraocular lenses due to its optical clarity and biocompatibility.
Polyvinylpyrrolidone PVP K30 is used as a coating agent in food processing to improve the appearance and shelf life of food products.

Polyvinylpyrrolidone PVP K30 serves as a clarifying agent in wine and beer production to remove protein and yeast haze.
Polyvinylpyrrolidone PVP K30 is employed as a binder in ceramic processing to improve green strength and reduce defects.
Polyvinylpyrrolidone PVP K30 is used in the manufacture of adhesives, sealants, and coatings for various industrial applications.

Polyvinylpyrrolidone PVP K30 is employed as a viscosity modifier in printing inks to control ink flow and improve print quality.
Polyvinylpyrrolidone PVP K30 serves as a carrier for active ingredients in agricultural formulations such as herbicides and insecticides.

Polyvinylpyrrolidone PVP K30 is used as a flocculating agent in wastewater treatment to remove suspended solids and clarify water.
Polyvinylpyrrolidone PVP K30 is employed as a lubricant and anti-static agent in textile processing to improve fiber handling and reduce static electricity.
Polyvinylpyrrolidone PVP K30 serves as a binder in the production of abrasive grinding wheels and polishing compounds.

Polyvinylpyrrolidone PVP K30 is used as a component in dental adhesives and restorative materials for dental applications.
Polyvinylpyrrolidone PVP K30 is employed as a carrier for flavor and fragrance ingredients in food and cosmetic formulations.
Polyvinylpyrrolidone PVP K30 serves as a stabilizer in latex paints to prevent pigment settling and improve shelf stability.

Polyvinylpyrrolidone PVP K30 is utilized as a dispersant in ceramic and metal powder processing to improve powder flow and handling.
Polyvinylpyrrolidone PVP K30 is a versatile polymer with a wide range of applications across pharmaceutical, cosmetic, food, and industrial sectors, contributing to the development of innovative products and formulations.

Polyvinylpyrrolidone PVP K30 is used as a stabilizer and viscosity modifier in aqueous film-coating formulations for tablets and capsules.
Polyvinylpyrrolidone PVP K30 serves as a binder in the production of ceramic membranes for filtration and separation applications.
Polyvinylpyrrolidone PVP K30 is employed as a clarifying agent in fruit juices and vegetable juices to remove suspended particles and improve clarity.

Polyvinylpyrrolidone PVP K30 is used as a carrier for pigments and dyes in textile printing and dyeing processes.
Polyvinylpyrrolidone PVP K30 is employed as a binder in the production of carbon electrodes for batteries and fuel cells.
Polyvinylpyrrolidone PVP K30 is used as a lubricating agent in wire drawing and metalworking processes to reduce friction and wear.

Polyvinylpyrrolidone PVP K30 serves as a carrier for fragrances and essential oils in air fresheners and aromatherapy products.
Polyvinylpyrrolidone PVP K30 is employed as a stabilizer in latex adhesives to improve bonding strength and moisture resistance.

Polyvinylpyrrolidone PVP K30 is used as a thickening agent in water-based paints and coatings to improve flow and leveling properties.
Polyvinylpyrrolidone PVP K30 serves as a clarifying agent in brewing to remove haze-causing proteins and improve beer clarity.
Polyvinylpyrrolidone PVP K30 is employed as a carrier for active ingredients in veterinary formulations such as flea and tick treatments.

Polyvinylpyrrolidone PVP K30 is used as a stabilizer and dispersant in suspension polymerization to control particle size and morphology.
Polyvinylpyrrolidone PVP K30 serves as a binder in the production of granules and pellets for controlled-release drug delivery systems.
Polyvinylpyrrolidone PVP K30 is employed as a dispersant in ceramic glazes to improve suspension stability and prevent settling.
Polyvinylpyrrolidone PVP K30 is used as a gelling agent in the production of gelatin capsules for pharmaceutical and nutraceutical applications.

Polyvinylpyrrolidone PVP K30 serves as a binding agent in the production of ceramic tiles and bricks to improve mechanical strength and durability.
Polyvinylpyrrolidone PVP K30 is employed as a carrier for nutrients and supplements in animal feed formulations.
Polyvinylpyrrolidone PVP K30 is used as a stabilizer in photographic emulsions to prevent silver halide grain growth and fogging.

Polyvinylpyrrolidone PVP K30 serves as a suspending agent in the formulation of veterinary vaccines and biological products.
Polyvinylpyrrolidone PVP K30 is employed as a film-forming agent in wound dressings and transdermal drug delivery systems.
Polyvinylpyrrolidone PVP K30 is used as a binder in the production of agrochemical formulations such as herbicides and fungicides.
Polyvinylpyrrolidone PVP K30 serves as a flocculating agent in water treatment to remove suspended solids and improve water clarity.

Polyvinylpyrrolidone PVP K30 is employed as a binder in the production of abrasive wheels and polishing compounds for metalworking.
Polyvinylpyrrolidone PVP K30 is used as a thickener and stabilizer in the formulation of inkjet printing inks for graphic arts and packaging.
Polyvinylpyrrolidone PVP K30 is a versatile polymer with a wide range of applications in various industries, contributing to the development of advanced materials, formulations, and technologies.



DESCRIPTION


Polyvinylpyrrolidone (Polyvinylpyrrolidone PVP K30) is a polymer that is widely used in various industries due to its versatility and unique properties.
Polyvinylpyrrolidone PVP K30 is commonly used in pharmaceuticals, cosmetics, personal care products, and other applications.

Polyvinylpyrrolidone PVP K30 is a water-soluble polymer that forms clear, transparent solutions when dissolved in water.
Polyvinylpyrrolidone PVP K30 has excellent film-forming properties, adhesion, and binding capabilities, making it useful in a wide range of applications.

Polyvinylpyrrolidone (Polyvinylpyrrolidone PVP K30) is a water-soluble polymer widely used in various industries.
Polyvinylpyrrolidone PVP K30 is a synthetic polymer derived from the monomer N-vinylpyrrolidone (NVP).
Polyvinylpyrrolidone PVP K30 is a white, amorphous powder with a high molecular weight.

Polyvinylpyrrolidone PVP K30 has excellent film-forming properties and can form clear, transparent films when dissolved in water.
Polyvinylpyrrolidone PVP K30 is odorless and tasteless, making it suitable for use in pharmaceuticals, cosmetics, and food applications.

Polyvinylpyrrolidone PVP K30 has a high affinity for water and can absorb and retain large amounts of moisture.
Polyvinylpyrrolidone PVP K30 is biocompatible and non-toxic, making it safe for use in various medical and pharmaceutical applications.

Polyvinylpyrrolidone PVP K30 is highly stable under a wide range of temperature and pH conditions.
Polyvinylpyrrolidone PVP K30 is soluble in many polar solvents, including water, ethanol, and methanol.

Polyvinylpyrrolidone PVP K30 exhibits excellent binding properties and is commonly used as a binder in tablet formulations.
Polyvinylpyrrolidone PVP K30 can act as a solubilizer, stabilizer, and dispersant in liquid formulations such as suspensions and solutions.

Polyvinylpyrrolidone PVP K30 is used as a thickening agent in personal care products such as shampoos, lotions, and creams.
Polyvinylpyrrolidone PVP K30 is a versatile excipient in pharmaceutical formulations, improving drug solubility, stability, and bioavailability.
Polyvinylpyrrolidone PVP K30 is used as a film-forming agent in oral thin films and oral care products such as mouthwashes and denture adhesives.

Polyvinylpyrrolidone PVP K30 is used as a coating agent in the food industry to improve the appearance and texture of food products.
Polyvinylpyrrolidone PVP K30 is employed as a clarifying agent in beverages and as a stabilizer in emulsions and suspensions.



PROPERTIES


Physical Properties:

Appearance: White to off-white powder or granules
Odor: Odorless
Density: Typically around 1.2 g/cm³
Melting Point: Decomposes above 150°C
Solubility: Soluble in water, alcohols, and polar organic solvents
pH: Typically neutral (around pH 7) in aqueous solutions
Molecular Weight: Variable, depending on the polymer grade (e.g., Polyvinylpyrrolidone PVP K30 K30 typically has a molecular weight range of 40,000 to 60,000 g/mol)
Refractive Index: Typically around 1.53 (for a 1% aqueous solution at 25°C)
Hygroscopicity: Moderately hygroscopic, absorbs moisture from the atmosphere
Solubility in Organic Solvents: Soluble in most polar organic solvents, such as acetone, ethanol, methanol, and chloroform
Film-Forming Ability: Forms clear, transparent films when dissolved in water or polar organic solvents
Viscosity: Varies depending on the concentration and molecular weight of the polymer, typically forms viscous solutions at high concentrations


Chemical Properties:

Chemical Formula: (C6H9NO)n (where n represents the number of repeating units in the polymer chain)
Monomer: N-Vinylpyrrolidone (NVP)
Structure: Polyvinylpyrrolidone is a linear polymer composed of repeating vinylpyrrolidone monomer units linked by carbon-carbon bonds.
Solubility: Polyvinylpyrrolidone is highly soluble in water and forms clear, transparent solutions.
pH Stability: Stable over a wide pH range, from acidic to alkaline conditions.
Stability to Heat: Generally stable at moderate temperatures; however, decomposition may occur at elevated temperatures, leading to discoloration and degradation of the polymer.
Stability to Light: Generally stable to light exposure, but prolonged exposure to UV radiation may lead to degradation and loss of polymer properties.



FIRST AID


Inhalation:

If Polyvinylpyrrolidone dust or vapors are inhaled and respiratory irritation occurs, immediately move the affected person to fresh air.
Allow the individual to rest in a well-ventilated area and provide them with oxygen if breathing difficulties persist.
If the person is not breathing or shows signs of respiratory distress, administer artificial respiration.
Seek medical attention promptly.
Keep the person warm and comfortable. Do not leave them unattended.


Skin Contact:

In case of skin contact with Polyvinylpyrrolidone, immediately remove contaminated clothing and shoes.
Wash the affected area with plenty of water and mild soap to remove any residual Polyvinylpyrrolidone PVP K30.
Rinse the skin thoroughly for at least 15 minutes to ensure complete removal of the polymer.
If skin irritation or rash develops, seek medical advice promptly.
If Polyvinylpyrrolidone PVP K30 gets into eyes, immediately flush the eyes with gently flowing water for at least 15 minutes.
Hold the eyelids open to ensure thorough rinsing and remove any contact lenses if present and easily removable.
Seek immediate medical attention, even if the affected person does not experience immediate symptoms.
Do not rub the eyes, as this may exacerbate irritation and cause further damage.


Ingestion:

If Polyvinylpyrrolidone is ingested accidentally and the person is conscious, rinse their mouth thoroughly with water.
Do not induce vomiting unless instructed to do so by medical personnel, especially if the individual is unconscious or experiencing convulsions.
Seek medical advice immediately, and provide the healthcare provider with information about the ingested substance, including its name, concentration, and the amount ingested.
Monitor the person for signs of gastrointestinal distress, such as nausea, vomiting, or abdominal pain, and seek medical attention promptly if symptoms worsen or persist.


General Precautions:

Always handle Polyvinylpyrrolidone with care and wear appropriate personal protective equipment (PPE) such as gloves, goggles, and protective clothing to prevent skin and eye contact.
Avoid breathing in dust or vapors of Polyvinylpyrrolidone. Use local exhaust ventilation or respiratory protection if necessary.
Keep containers tightly closed when not in use and store them in a cool, dry, well-ventilated area away from sources of heat, ignition, and incompatible substances.
In case of a spill, contain the area and prevent further release of the polymer into the environment. Clean up spills promptly using appropriate absorbent materials and dispose of waste according to local regulations.



HANDLING AND STORAGE


Handling:

When handling Polyvinylpyrrolidone (Polyvinylpyrrolidone PVP K30), wear appropriate personal protective equipment (PPE) including chemical-resistant gloves, safety goggles, and protective clothing to prevent skin and eye contact.
Avoid breathing in dust or vapors of Polyvinylpyrrolidone PVP K30. Use local exhaust ventilation or respiratory protection if necessary to control airborne exposure.
Ensure adequate ventilation in the work area to minimize the buildup of dust and vapors. Use explosion-proof equipment in areas where flammable vapors may be present.
Prevent contact with incompatible materials such as strong oxidizers and reducing agents, as they may react with Polyvinylpyrrolidone PVP K30 and cause decomposition or release of hazardous gases.
Use caution when transferring or pouring Polyvinylpyrrolidone PVP K30 to prevent spills and dust generation. Use appropriate tools and equipment such as scoops or funnels to minimize dust exposure.
Keep containers tightly closed when not in use to prevent contamination and minimize exposure to air and moisture.
Avoid prolonged or repeated skin contact with Polyvinylpyrrolidone PVP K30. Wash hands thoroughly after handling to remove any residual polymer.
Do not eat, drink, or smoke while handling Polyvinylpyrrolidone PVP K30, and wash hands before eating, drinking, or using the restroom.
Store Polyvinylpyrrolidone PVP K30 away from heat sources, ignition sources, and direct sunlight to prevent degradation and decomposition.
Keep storage areas clean and free from clutter to minimize the risk of spills and accidents.


Storage:

Store Polyvinylpyrrolidone in its original packaging or labeled containers to ensure proper identification and traceability.
Store Polyvinylpyrrolidone PVP K30 in a cool, dry, well-ventilated area away from sources of heat and ignition.
Keep containers tightly closed and upright to prevent leakage or spills. Store larger quantities in suitable containers with secondary containment to contain spills.
Store Polyvinylpyrrolidone PVP K30 away from incompatible materials such as strong oxidizers and reducing agents to prevent reactions or contamination.
Ensure storage areas are equipped with appropriate firefighting equipment and spill containment materials in case of emergencies.
Check containers regularly for signs of damage or deterioration and replace any damaged or compromised containers promptly.
Follow local regulations and guidelines for the storage of chemicals, including any specific requirements for the storage of Polyvinylpyrrolidone PVP K30.
Monitor storage conditions regularly to ensure compliance with safety guidelines and to prevent the buildup of hazardous conditions.
Polyvinyl alcohol
PVOH; Ethenol, homopolymer; PVA; Polyviol; Vinol; Alvyl; Alkotex; Covol; Gelvatol; Lemol; polyvinyl alcohol CAS NO: 9002-89-5
Polyvinyl Butyral
PVOH; Ethenol, homopolymer; PVA; Polyviol; Vinol; Alvyl; Alkotex; Covol; Gelvatol; Lemol CAS NO:9002-89-5
Polyvinyl Pyrrolidone
PVP; Kollidon K25; Kollidon K-90; Povidone; Poly[1-(2-oxo-1-pyrrolidinyl)ethylen]; 1-Ethenyl-2-pyrrolidon homopolymer; 1-Vinyl-2-pyrrolidinon-Polymere; 1-ethenylpyrrolidin-2-one; Crospovidone CAS NO:9003-39-8
Polyvinyle de butyral (PVB)
SYNONYMS Polyvinylidene fluor;poly(vinylene fluoride);POLY(VINYLIDENE FLUORIDE);poly(1,1-difluoroethylene);VINYLIDENE FLUORIDE POLYMER;Polyvinylidenefluorideresin;PolyvinylideneFluoride(Pvdf);PVDF(polyvinylidene fluoride) cas no: 24937-79-9
Polyvinylpyrrolidone
1-éthénylpyrrolidin-2-one; N-vinyl-2-pyrrolidone homopolymérisée; poly(n-vinylbutyrolactame); polyvidone; polyvinylpyrolidone; povidone; PVP; polyvinylpyrrolidone; Povidone; PVP, N° CAS : 9003-39-8 - Polyvinylpyrrolidone. Origine(s) : Synthétique. Nom INCI : PVP. Nom chimique : 2-Pyrrolidinone, 1-ethenyl-, homopolymer. Additif alimentaire : E1201. Classification : Polymère de synthèse , La polyvinylpyrrolidone (PVP), appelée aussi polyvidone ou povidone, est un polymère organique synthétisé par polymérisation de la N-vinylpyrrolidone.; La PVP ou polyvinylpyrrolidone est un polymère hydrosoluble. Elle est très polyvalente en cosmétique et peut être utilisée en tant que liant, filmogène, stabilisateur d'émulsion, agent de suspension ou fixateur capillaire. Elle est principalement employée dans des produits tels que les mascara, l'eye-liner, les produits capillaires ainsi que les shampooings. Elle est interdite en bio.. Ses fonctions (INCI). Antistatique : Réduit l'électricité statique en neutralisant la charge électrique sur une surface. Agent fixant : Permet la cohésion de différents ingrédients cosmétiques. Stabilisateur d'émulsion : Favorise le processus d'émulsification et améliore la stabilité et la durée de conservation de l'émulsion. Agent filmogène : Produit un film continu sur la peau, les cheveux ou les ongles. Agent de fixation capillaire : Permet de contrôler le style du cheveu. Agent de contrôle de la viscosité : Augmente ou diminue la viscosité des cosmétiques. Noms français : 1-ETHENYL-2-PYRROLIDONE POLYMER; 1-ETHENYL-2-PYRROLIDONE POLYMERS; 2-PYPROLIDINONE, 1-VINYL-, POLYMERS; 2-PYRROLIDINONE, 1-ETHENYL-, HOMOPOLYMER; 2-PYRROLIDONE, 1-ETHENYL-, HOMOPOLYMER; 2-PYRROLIDONE, 1-VINYL, POLYMERS; N-VINYLPYRROLIDINONE POLYMER; N-VINYLPYRROLIDONE POLYMER; POLY(1-(2-OXO-1-PYRROLIDINYL)ETHYLENE); POLY(1-VINYL-2-PYRROLIDINONE); POLY(1-VINYL-2-PYRROLIDONE); POLY(1-VINYLPYRROLIDINONE); POLY(N-VINYL PYRROLIDINONE-2); POLY(N-VINYL PYRROLIDONE-2); Poly(n-vinylbutyrolactame); POLY(N-VINYLPYRROLIDINONE); POLY(VINYL-1 PYRROLIDINONE-2); POLY(VINYL-1 PYRROLIDONE-2); POLY(VINYLPYRROLIDONE); POLY-1-(2-OXO-1-PYRROLIDINYL)ETHYLENE; Polyvinylpyrrolidone; VINYLPYRROLIDINONE POLYMER; VINYLPYRROLIDONE POLYMER. Noms anglais : N-VINYLBUTYROLACTAM POLYMER; Polyvinyl pyrrolidone; Polyvinylpyrrolidone; POVIDONE; Providone. Utilisation et sources d'émission: Agent dispersant, fabrication de produits pharmaceutiques ; 2-Pyrrolidinone, 1-ethenyl-, homopolymer; polyvinylpyrrolidone; Povidone; PVP; E1201 est listé comme raffermissant, stabilisant et agent de dispersion, le codex Alimentarius l'attribue à certains spiritueux (bières comprises), vinaigres, concentrés pour boissons aromatisées, édulcorants de table (jusque 3 000 mg/kg), chewing-gums (jusque 10 000 mg/kg), compléments alimentaires (sans limite (BPF)) et fruits frais traités en surface. L'industrie répertorie également la polyvinylpyrrolidone dans les cosmétiques (fixateur capillaire, liant, antistatique, émulsifiant, etc.), et certains produits pharmaceutiques. Comme telle, elle est utilisée dans les plasmas sanguins ou comme adjuvant en raison de sa solubilité dans l'eau et les solvants polaires5. Son aptitude à former des films est remarquable. Les domaines d'application sont vastes et vont des produits d'hygiène (shampoing, dentifrice…) au papier pour imprimantes photo et peintures
POMEGRANATE SEED EXTRACT

Pomegranate Seed Extract, derived from the seeds of the Punica granatum fruit, is known for its potent antioxidant, anti-inflammatory, and anti-aging properties.
Pomegranate Seed Extract is widely recognized for its ability to protect skin cells from oxidative stress, promote skin regeneration, and support cardiovascular health, making it a valuable ingredient in skincare, wellness, and dietary supplements.
This versatile extract offers both therapeutic and cosmetic benefits, helping to maintain youthful skin, improve heart health, and provide anti-inflammatory support.

CAS Number: 84961-57-9
EC Number: 284-646-0

Synonyms: Pomegranate Seed Extract, Punica granatum Seed Extract, Pomegranate Oil Extract, Pomegranate Phytocomplex, Punica Bioactive Extract, Punica granatum Seed Oil, Pomegranate Seed Oil Extract, Pomegranate Kernel Extract, Punica Seed Phytocomplex, Pomegranate Seed Active



APPLICATIONS


Pomegranate Seed Extract is extensively used in anti-aging skincare products, providing antioxidant protection and promoting the regeneration of skin cells, which helps to reduce the appearance of fine lines and wrinkles.
Pomegranate Seed Extract is favored in the formulation of anti-inflammatory creams, offering natural relief for irritated and inflamed skin while promoting overall skin health.
Pomegranate Seed Extract is utilized in the development of moisturizing lotions, where it helps to hydrate the skin, improve elasticity, and protect against environmental damage.

Pomegranate Seed Extract is widely used in dietary supplements for its ability to support heart health by improving blood circulation and reducing inflammation in the cardiovascular system.
Pomegranate Seed Extract is employed in the creation of wellness teas and beverages, offering antioxidant and anti-inflammatory benefits that support overall health and well-being.
Pomegranate Seed Extract is essential in the development of detox products, where it helps to eliminate toxins from the body and promote healthy skin, liver function, and digestion.

Pomegranate Seed Extract is utilized in the production of sunscreen products, offering UV protection by neutralizing free radicals that can damage skin cells and accelerate aging.
Pomegranate Seed Extract is a key ingredient in hair care products, helping to nourish the scalp, promote hair growth, and add shine to dry and damaged hair.
Pomegranate Seed Extract is used in the development of eye creams, where its antioxidant properties help reduce dark circles, puffiness, and signs of aging around the eyes.

Pomegranate Seed Extract is applied in the formulation of lip balms and treatments, providing moisture, protection, and antioxidant care for dry, chapped lips.
Pomegranate Seed Extract is employed in the production of facial serums, offering deep hydration and enhancing the skin’s natural radiance by promoting cell turnover.
Pomegranate Seed Extract is used in wellness supplements to boost immune function, providing antioxidant support and helping to fight off infections and reduce inflammation.

Pomegranate Seed Extract is widely utilized in cardiovascular health supplements, where it helps to reduce cholesterol levels and support overall heart function.
Pomegranate Seed Extract is a key component in anti-aging serums, where its high content of essential fatty acids and antioxidants helps to protect the skin from oxidative stress and maintain a youthful appearance.
Pomegranate Seed Extract is used in the creation of products designed to reduce hyperpigmentation, helping to even out skin tone and lighten dark spots.

Pomegranate Seed Extract is employed in the formulation of natural remedies for skin conditions like eczema and psoriasis, offering relief from inflammation and promoting skin healing.
Pomegranate Seed Extract is applied in the creation of body oils, where it helps to improve skin texture, enhance moisture retention, and provide a silky finish to the skin.
Pomegranate Seed Extract is utilized in the production of massage oils, providing nourishment to the skin while offering anti-inflammatory and soothing effects.

Pomegranate Seed Extract is found in anti-cellulite creams, helping to promote circulation, reduce the appearance of cellulite, and firm the skin.
Pomegranate Seed Extract is used in detox supplements, offering support for liver health, enhancing the body’s natural detoxification processes, and promoting radiant skin.
Pomegranate Seed Extract is a key ingredient in oral care products, such as mouthwash and toothpaste, providing antimicrobial and antioxidant benefits that help to protect gums and teeth.



DESCRIPTION


Pomegranate Seed Extract, derived from the seeds of the Punica granatum fruit, is known for its potent antioxidant, anti-inflammatory, and anti-aging properties.
Pomegranate Seed Extract is widely recognized for its ability to protect skin cells from oxidative stress, promote skin regeneration, and support cardiovascular health, making it a valuable ingredient in skincare, wellness, and dietary supplements.

Pomegranate Seed Extract offers additional benefits such as improving skin elasticity, boosting collagen production, and promoting overall skin health.
Pomegranate Seed Extract is often incorporated into formulations designed to promote youthful skin, improve skin texture, and reduce the appearance of fine lines and wrinkles.
Pomegranate Seed Extract is recognized for its ability to enhance cardiovascular function by improving blood flow and reducing inflammation in the arteries, making it an ideal ingredient for heart health supplements.

Pomegranate Seed Extract is commonly used in both traditional and modern wellness formulations, providing a reliable solution for maintaining skin vitality and promoting overall health.
Pomegranate Seed Extract is valued for its ability to provide deep hydration, protect the skin from environmental damage, and support the body's natural detoxification processes.
Pomegranate Seed Extract is a versatile ingredient that can be used in a variety of products, including creams, serums, oils, teas, supplements, and hair care products.

Pomegranate Seed Extract is an ideal choice for products targeting anti-aging, cardiovascular health, and skin hydration, providing natural and effective care for these concerns.
Pomegranate Seed Extract is known for its compatibility with other anti-aging and antioxidant-rich ingredients, making it easy to integrate into multi-functional formulations.
Pomegranate Seed Extract is often chosen for formulations requiring a balance between skin protection, hydration, and antioxidant care, ensuring comprehensive health and beauty benefits.

Pomegranate Seed Extract enhances the overall effectiveness of wellness and skincare products by providing natural support for skin regeneration, moisture retention, and heart health.
Pomegranate Seed Extract is a reliable ingredient for creating products that offer noticeable improvements in skin texture, hydration, and overall radiance.
Pomegranate Seed Extract is an essential component in innovative wellness products that stand out in the market for their performance, safety, and ability to support skin health, heart function, and overall vitality.



PROPERTIES


Chemical Formula: N/A (Natural extract)
Common Name: Pomegranate Seed Extract (Punica granatum Seed Extract)
Molecular Structure:
Appearance: Light yellow to amber oil or powder extract
Density: Approx. 0.89-0.93 g/cm³ (for oil extract)
Melting Point: N/A (oil form)
Solubility: Soluble in oils; insoluble in water
Flash Point: >100°C (for oil extract)
Reactivity: Stable under normal conditions; no known reactivity issues
Chemical Stability: Stable under recommended storage conditions
Storage Temperature: Store between 15-25°C in a cool, dry place
Vapor Pressure: Low (for oil extract)



FIRST AID


Inhalation:
If Pomegranate Seed Extract is inhaled, move the affected person to fresh air immediately.
If breathing difficulties persist, seek immediate medical attention.
If the person is not breathing, administer artificial respiration.
Keep the affected person warm and at rest.

Skin Contact:
Wash the affected area with soap and water.
If skin irritation persists, seek medical attention.

Eye Contact:
In case of eye contact, flush the eyes with plenty of water for at least 15 minutes, lifting upper and lower eyelids.
Seek immediate medical attention if irritation or redness persists.
Remove contact lenses if present and easy to do; continue rinsing.

Ingestion:
If Pomegranate Seed Extract is ingested, do not induce vomiting unless directed to do so by medical personnel.
Rinse the mouth thoroughly with water.
Seek immediate medical attention.
If the person is conscious, give small sips of water to drink.

Note to Physicians:
Treat symptomatically.
No specific antidote.
Provide supportive care.



HANDLING AND STORAGE


Handling:

Personal Protection:
Wear appropriate personal protective equipment (PPE) such as gloves and safety goggles if handling large quantities.
Use in a well-ventilated area to avoid inhalation of vapors or dust.

Ventilation:
Ensure adequate ventilation when handling large amounts of Pomegranate Seed Extract to control airborne concentrations below occupational exposure limits.

Avoidance:
Avoid direct contact with eyes and prolonged skin contact.
Do not eat, drink, or smoke while handling Pomegranate Seed Extract.
Wash hands thoroughly after handling.

Spill and Leak Procedures:
Contain spills to prevent further release and minimize exposure.
Absorb with inert material (e.g., sand, vermiculite) and collect for disposal.
Dispose of in accordance with local regulations.

Storage:
Store Pomegranate Seed Extract in a cool, dry, well-ventilated area away from incompatible materials (see SDS for specific details).
Keep containers tightly closed when not in use to prevent contamination.
Store away from heat sources, direct sunlight, and ignition sources.

Handling Cautions:
Avoid inhalation of vapors or direct contact with skin and eyes.
Use explosion-proof equipment in areas where vapors may be present.
Ponceau 4R
E124 AKA102 Red 18 l-rot4 1578red c.i.185 COCCINE CI 16255 sxpurple purplesx AcidredR foodred6 foodred7 Food Red coccinred crimsonsx purplered neucoccin newcoccin ponceau4re ponceau4rf ponceau4rt CI NO 6255 PONCEAU 4R SCARLET 3R PONCEAU 4RC NEW COCCINE ciacidred18 hdponceau4r CI NO 16255 ACID RED 18 New CarMine Schultz 213 PONCEAURED4R CAS Number 2611-82-7
POTASSIUM 2-ETHYLHEXANOATE
Potassium 2-ethylhexanoate, also known as potassium iso-octanoate, is a chemical used to convert the tert-butylammmonium salt of clavulanic acid into potassium clavulanate (clavulanate potassium).
Potassium 2-ethylhexanoate is a Potassium source that is soluble in organic solvents.
Potassium 2-ethylhexanoate is one of numerous organo-metallic compounds sold for uses requiring non-aqueous solubility such as recent solar energy and water treatment applications.

CAS Number:764-71-6
EC Number: 212-130-7
Molecular Formula: C8H17KO2
Molecular Weight: 184.32

Potassium 2-ethylhexanoate is a salt of caproic acid and potassium that is used as a food additive.
Potassium 2-ethylhexanoate can be used to prevent the development of rancidity in oils made with unsaturated fatty acids.
Potassium 2-ethylhexanoate has also been shown to have beneficial effects on the heart, such as slowing the heart rate and reducing arrhythmias.

Potassium 2-ethylhexanoate has been shown to have physiological effects in humans, including lowering serum cholesterol and triglycerides levels.
Potassium 2-ethylhexanoate has also been shown to reduce inflammation by inhibiting prostaglandin synthesis.

Potassium 2-ethylhexanoate when combined with cobalt support the accelerating effect in unsaturated polyesters.
This results in a decrease of discoloration of UPS-Systems caused by Cobalt.
Further Potassium 2-ethylhexanoate is also capable of stabilizing the rheological and the pot life behavior of waterborne 2- components PUR systems and additionally Potassium 2-ethylhexanoate can positively affect the haze-values of these paint systems.

Potassium 2-ethylhexanoate, also known as potassium iso-octanoate, is a chemical used to convert the tert-butylammmonium salt of clavulanic acid into potassium clavulanate (clavulanate potassium).
Potassium 2-ethylhexanoate is also used as a corrosion inhibitor in automotive antifreeze and as a catalyst for polyurethane systems.

Potassium 2-ethylhexanoate is an organic compound of four elements: Carbon, Hydrogen, Potassium, and Oxygen.
The molecular weight of Potassium 2-ethylhexanoate is 182.3027 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Carbon, Hydrogen, Potassium, and Oxygen.

To calculate molecular weight of any compound, the first step is to know the constituent elements (atoms) and their number in that particular compound.
Then calculate the total atomic weight of each element by multiplying Potassium 2-ethylhexanoate atomic weight by Potassium 2-ethylhexanoate number.

The sum of total atomic weight of all constituent elements will be the molecular weight of Potassium 2-ethylhexanoate.
Note that the value of atomic weight may differ from different sources.

Potassium 2-ethylhexanoate is a Potassium source that is soluble in organic solvents.
Ethylhexanoates are carboxylates with many commercial applications.
They are commonly used in various catalysts for oxidation, hydrogenation and polymerization and as an adhesion promoter.

Potassium 2-ethylhexanoate is one of numerous organo-metallic compounds sold for uses requiring non-aqueous solubility such as recent solar energy and water treatment applications.
Similar results can sometimes also be achieved with Nanoparticles and by thin film deposition.

Potassium 2-ethylhexanoate is otherwise known as potassium iso-octanoate.
Potassium 2-ethylhexanoate appears as a water white to clear, pale yellow liquid.

Potassium 2-ethylhexanoate can be used to promote cobalt soap catalysis and to reduce the dosage of cobalt during the polymerization of polyester resin paint.
The end product will become a light-colored polyester resin.

Potassium 2-ethylhexanoate is standard grade potassium-based metal carboxylate with 15% K, diluted in diethylene glycol.
Potassium 2-ethylhexanoate is used as co-catalyst to boost cobalt performance and reduce color in unsaturated polyester resins and gelcoats.

Further, Potassium 2-ethylhexanoate is also used as liquid trimerization catalyst for polyisocyanurate (PIR) foam.
Catalyst ensures a highly cross-linked polyisocyanurate foam structure, resulting in strong and durable insulation products.

Potassium 2-ethylhexanoate is a salt of caproic acid and potassium that is used as a food additive.
Potassium 2-ethylhexanoate can be used to prevent the development of rancidity in oils made with unsaturated fatty acids.

Potassium 2-ethylhexanoate is used to convert the tert-butylammmonium salt of clavulanic acid into potassium clavulanate or clavulanate potassium.
Potassium 2-ethylhexanoate is also used as a catalyst for polyurethane systems (foams) and for unsaturated polyester resin systems.

Potassium 2-ethylhexanoate is diethylene glycol solution mainly used as a trimerized catalyst for polyurethanes.
Potassium 2-ethylhexanoate offers strong catalysing properties, is odorless, reduces the 'demoulding' time in foams and promotes the 'cross-linking' and 'cure' process.
Potassium 2-ethylhexanoate is soluble in water, alcohol and other polar solvents.

Potassium 2-ethylhexanoate is an effective promoter with cobalt octoate used in low color applications.
Potassium 2-ethylhexanoate is soluble in organic solvents and oils, and Potassium 2-ethylhexanoate has a potassium metal content of 15% and a total solids content of 80%.

Potassium 2-ethylhexanoate is a potassium catalyst and is widely used in rigid isocyanate foam reaction.
Potassium 2-ethylhexanoate is an excellent and cost-effective isocyanate catalyst.
Because of Potassium 2-ethylhexanoate high conversion rate, Potassium 2-ethylhexanoate has become a catalyst for many rigid foams.

Potassium 2-ethylhexanoate exhibits solubility in numerous organic solvents.
Potassium 2-ethylhexanoate applications span a wide range of fields, serving as a catalyst in organic synthesis, an electrolyte in batteries, and an additive in lubricants and adhesives.

Moreover, Potassium 2-ethylhexanoate finds utility in polymer and plastic production.
In laboratory settings, Potassium 2-ethylhexanoate proves invaluable for a diverse array of chemical reactions, encompassing polymer synthesis and catalyst preparation.

An excellent candidate to consider for manufacturing polyisocyanurate rigid foam, Potassium 2-ethylhexanoate may be used in formulated systems or by direct metering.
Potassium 2-ethylhexanoate also can improve the foam isotropy for more dimensional stability and compressive strength.

Potassium 2-ethylhexanoate offers several advantages compared to other Niax catalyst K-Zero G additive catalysts.
In addition to minimizing the amount of isocyanate consumed, Potassium 2-ethylhexanoate also has a lower viscosity than typical Potassium 2-ethylhexanoate in DEG, which can improve both pumping and handling.

Potassium 2-ethylhexanoate has no odor and is not classified as flammable.
Potassium 2-ethylhexanoate also offers better formulation flexibility with Potassium 2-ethylhexanoate ability to raise the NCO index at a constant isocyanate-to-polyol rate.

Potassium 2-ethylhexanoate typically requires the same dosage level as the commonly used Niax catalyst K-Zero G additives it may replace.
In addition, Potassium 2-ethylhexanoate water content is essentially identical to the typical Niax catalyst K-Zero G additives, so MDI consumption is not significant.

Potassium 2-ethylhexanoate is a salt of caproic acid and potassium that is used as a food additive.
Potassium 2-ethylhexanoate can be used to prevent the development of rancidity in oils made with unsaturated fatty acids.
Potassium 2-ethylhexanoate has also been shown to have beneficial effects on the heart, such as slowing the heart rate and reducing arrhythmias.

Potassium 2-ethylhexanoate has been shown to have physiological effects in humans, including lowering serum cholesterol and triglycerides levels.
Potassium 2-ethylhexanoate has also been shown to reduce inflammation by inhibiting prostaglandin synthesis.

Potassium 2-ethylhexanoate Market Analysis:
Global Potassium 2-ethylhexanoate Market Report 2023 talks about crucial market insights with the help of segments and sub-segments analysis.
In this section, we reveal an in-depth analysis of the key factors influencing Potassium 2-ethylhexanoate Industry growth.

Potassium 2-ethylhexanoate market has been segmented with the help of Potassium 2-ethylhexanoate Type, Application , and others.
Potassium 2-ethylhexanoate market analysis helps to understand key industry segments, and their global, regional, and country-level insights.

Furthermore, this analysis also provides information pertaining to segments that are going to be most lucrative in the near future and their expected growth rate and future market opportunities.
The report also provides detailed insights into factors responsible for the positive or negative growth of each industry segment.

Type Segment Analysis of Potassium 2-ethylhexanoate Market:
Quality management is the major parameter to meet specific standards and specifications, reliability and consistency.
The chemical and material industry is full of various types of chemicals and Potassium 2-ethylhexanoate is necessary to focus on quality management because Potassium 2-ethylhexanoate may affect environment & other equipment.

Raw materials plays an important role in this industry.
The chemical industry converts these raw materials into primary, secondary, and tertiary products.

Fluctuations in raw material prices may impact the market growth in the near future.
This study includes the revenue generation of each type in each region for the year 2018 to 2030.
Additionally Potassium 2-ethylhexanoate also provides detailed supply chain analysis along with current trends in the market which are expected to propel the market growth in the coming year.

Application Segment Analysis of Potassium 2-ethylhexanoate Market:
Chemical and materials are one of the most important industries for other sectors including automotive, pharmaceutical, personal care, consumer goods and others.
The demand for high quality and environment friendly products is increasing in various end-use sectors.

Thus, key manufacturers are focusing on technological advancement in production of high-quality chemicals.
The segment analysis will help to understand which is the most attractive application/end use sector.

Potassium 2-ethylhexanoate also provides the year on year (Y-O-Y) growth rate for each segment.
Moreover, this study includes the detailed analysis of each segment to understand the key positive and negative factors which are impacting the growth of the Potassium 2-ethylhexanoate Market.

Some of the key Application of Potassium 2-ethylhexanoate are:
Dryer
Resin Catalyst
Fragrance & Flavor
Other

Applications of Potassium 2-ethylhexanoate:

Catalyst:
Potassium 2-ethylhexanoate is co-catalyst to boost cobalt performance in unsaturated polyester resins and gelcoats.
Potassium 2-ethylhexanoate is trimerization catalyst for polyisocyanurate foam.

Uses of Potassium 2-ethylhexanoate:
Potassium 2-ethylhexanoate can be used to promote cobalt soap catalysis and to reduce the dosage of cobalt during the polymerization of polyester resin paint.
Potassium 2-ethylhexanoate is used as co-catalyst to boost cobalt performance and reduce color in unsaturated polyester resins and gelcoats.

Industry Uses:
Cleaning agent
Corrosion inhibitor
Drier
Lubricating agent
Surface modifier
Surfactant (surface active agent)

Consumer Use:
Drier

Usage of Potassium 2-ethylhexanoate:
Potassium 2-ethylhexanoate is mainly used as salt-forming agent of potassium clavulanate, salt-forming agent of synthesizing cephalosporin antibiotics, cross-linking agent of macromolecule materials, heat stabilizer of plastic products, catalyst of polymerization, additive of lubricating oil and fuel oil, and can also be used in the fields of dyestuff, perfume and preservative.
Potassium 2-ethylhexanoate is mainly used as a salt forming agent for the synthesis of cephalosporin antibiotic potassium clavulanate, a heat stabilizer for plastic products, a catalyst for polymerization, and a crosslinking agent for polymer materials.

General Manufacturing Information of Potassium 2-ethylhexanoate:

Industry Processing Sectors:
Fabricated Metal Product Manufacturing
Paint and Coating Manufacturing
Soap, Cleaning Compound, and Toilet Preparation Manufacturing

Handling and Storage of Potassium 2-ethylhexanoate:
The use of Potassium 2-ethylhexanoate requires technical and professional knowledge.
For further information on handling, storage and toxicity consult the safety data sheet.
Potassium 2-ethylhexanoate must always be stored sealed, in a cool, ventilated place, protected from atmospheric agents.

Packaging:
The standard packaging of Potassium 2-ethylhexanoate is in 1000 kg IBCs.

Stability and Reactivity of Potassium 2-ethylhexanoate:

Chemical stability:

Thermal decomposition / conditions to be avoided:
No decomposition if used according to specifications.

Incompatible materials:
No further relevant information available.

Hazardous decomposition products:
No dangerous decomposition products known.

Safety of Potassium 2-ethylhexanoate:

H Statements:

H315:
Causes skin irritation.

H319:
Causes serious eye irritation.

H335:
May cause respiratory irritation.

P Statements:

P158:
P158

P261:
Avoid breathing dust, fumes, gas, mist, vapours, spray.

P280:
Wear protective gloves/protective clothing/eye protection/face protection.

P302+P352:

IF ON SKIN:
Wash with plenty of soap and water.

P304+P340:

IF INHALED:
Remove person to fresh air and keep comfortable for breathing.

P305+P351+P338:

IF IN EYES:
Rinse cautiously with water for several minutes.
Remove contact lenses if present and easy to do.
Continue rinsing.

P403+P233:
Store in a well ventilated place.
Keep container tightly closed.

P501:
Dispose of contents/container in accordance with local/regional/national/international regulations.

Fire Fighting Procedures of Potassium 2-ethylhexanoate:

If material on fire or involved in fire:
Use water in flooding quantities as fog.
Solid streams of water may be ineffective.

Cool all affected containers with flooding quantities of water.
Apply water from as far a distance as possible.
Use "alcohol" foam, dry chemical or carbon dioxide. Use water spray to knock-down vapors.

Cleanup Methods of Potassium 2-ethylhexanoate:

Environmental considerations:

Land spill:
Dig a pit, pond, lagoon, holding area to contain liquid or solid material.
If time permits, pits, ponds, lagoons, soak holes, or holding areas should be sealed with an impermeable flexible membrane liner.

Dike surface flow using soil, sand bags, foamed polyurethane, or foamed concrete.
Neutralize with agricultural lime (CaO), crushed limestone (CaCO3) or sodium bicarbonate (NaHCO3).
Absorb bulk liquid with fly ash, cement powder, or commercial sorbents.

Water spill:
Use natural barriers or oil spill control booms to limit spill travel.
Neutralize with agricultural lime (CaO), crushed limestone (CaCO3) or sodium bicarbonate (NaHCO3).
Use mechanical dredges or lifts to remove immobilized masses of pollutants and precipitates.

Air spill:
Apply water spray or mist to knock down vapors.
Vapor knockdown water is corrosive or toxic and should be diked for containment.

ENVIRONMENTAL HAZARDS (5 gallons or greater):
Do not discharge effluent containing Potassium 2-ethylhexanoate into lakes, streams, ponds, estuaries, oceans, or other waters unless in accordance with the requirements of a National Pollutant Discharge Elimination System (NPDES) permit and permitting authority has been notified in writing prior to discharge.
Do not discharge effluent containing Potassium 2-ethylhexanoate to sewer systems without previously notifying the local sewage treatment plant authority.

Disposal Methods of Potassium 2-ethylhexanoate:
The most favorable course of action is to use an alternative chemical product with less inherent propensity for occupational exposure or environmental contamination.
Recycle any unused portion of Potassium 2-ethylhexanoate for Potassium 2-ethylhexanoate approved use or return Potassium 2-ethylhexanoate to the manufacturer or supplier.

Ultimate disposal of the chemical must consider:
Potassium 2-ethylhexanoate's impact on air quality; potential migration in soil or water; effects on animal, aquatic, and plant life; and conformance with environmental and public health regulations.

For containers less than 1 gallon:
Do not reuse container.
Wrap container and discard in the trash. (1 gal. bladder in box) Remove empty bladder from outer corrugated box.
Do not reuse bladder. Wrap bladder and box and put in trash.

Pesticide Disposal:
Pesticide wastes are acutely hazardous.
Improper disposal of excess pesticide, spray mixture, or rinsate is a violation of Federal Law.
If these wastes cannot be disposed of by use according to label instructions, contact your State Pesticide or Environmental Control Agency, or the Hazardous Waste Representative at the nearest EPA Regional Office for guidance.

Container Disposal:
Triple rinse (or equivalent).
Then offer for recycling or reconditioning, or puncture and dispose of in sanitary landfill, or incineration, or if allowed by state and local authorities, by burning.

If burned, stay out of smoke:
Remove empty bladder from outer corrugated box.
Triple rinse bladder (or equivalent).
Offer box and bladder for recycling or dispose of in a sanitary landfill or incineraVon, or if allowed by state and local authorities, by burning.

Identifiers of Potassium 2-ethylhexanoate:
EC / List no.: 212-130-7
CAS no.: 764-71-6
Mol. formula: C8H16O2.K

CAS No.: 764-71-6
Chemical Name: Potassium 2-ethylhexanoate
CBNumber: CB9106938
Molecular Formula: C8H17KO2
Molecular Weight: 184.32
MDL Number: MFCD00801112
MOL File: 764-71-6.mol

Formula: C8H15KO2
InChI: InChI=1S/C8H16O2.K/c1-2-3-4-5-6-7-8(9)10;/h2-7H2,1H3,(H,9,10);
InChI key: InChIKey=NEDCBCQYSIPIMC-UHFFFAOYSA-N
SMILES: [K].O=C(O)CCCCCCC

Product Name: Potassium 2-ethylhexanoate
CAS: 764-71-6
EICNECS: 212-130-7
Formula: C8H15KO2
Synonyms: Potassium Octanoate, Octanoic acid, Potassium Salt (1:1)
Suggested Industries: Construction & Building Materials

IUPAC Traditional: potassium octanoate
Molecular formula: C8H15KO2
Molecular weight: 182.304
SMILES: [K+].CCCCCCCC([O-])=O
Compound number: Molport-006-112-319

Linear Formula: K[OOCCH(C2H5)C4H9]
MDL Number: MFCD00045896
EC No.: 221-625-7
Beilstein/Reaxys No.: N/A
Pubchem CID: 23669619
IUPAC Name: potassium 2-ethylhexanoate
SMILES: [K+].[O-]C(=O)C(CC)CCCC
InchI Identifier: InChI=1S/C8H16O2.K/c1-3-5-6-7(4-2)8(9)10;/h7H,3-6H2,1-2H3,(H,9,10);/q;+1/p-1
InchI Key: ZUFQCVZBBNZMKD-UHFFFAOYSA-M

CAS Number: 3164-85-0
ChemSpider: 56266
ECHA InfoCard: 100.019.660
EC Number: 221-625-7
PubChem CID: 62486
UNII: P089X9A38X
CompTox Dashboard (EPA): DTXSID4027525
InChI: InChI=1S/C8H16O2.K/c1-3-5-6-7(4-2)8(9)10;/h7H,3-6H2,1-2H3,(H,9,10);/q;+1/p-1
Key: ZUFQCVZBBNZMKD-UHFFFAOYSA-M
InChI=1/C8H16O2.K/c1-3-5-6-7(4-2)8(9)10;/h7H,3-6H2,1-2H3,(H,9,10);/q;+1/p-1
Key: ZUFQCVZBBNZMKD-REWHXWOFAE
SMILES: [K+].[O-]C(=O)C(CC)CCCC

Properties of Potassium 2-ethylhexanoate:
Chemical formula: C8H15KO2
Molar mass: 182.304 g·mol−1

Molecular weight: 183.31 g/mol
Formula: C8H16O2•K
Purity: Min. 95%
Color/Form: Powder
MDL: MFCD00801112
HS code: 2915907098

Appearance: Liquid
Color Clear: Yellow
Content of Potassium 2-ethylhexanoate, % 75: ± 3
Viscosity @ 25°C, mPa s: 3500 - 4500
OH number, mg KOH / g (calculated): 470
Water content, %: 3.2 - 3.7

Molecular Weight: 182.30 g/mol
Hydrogen Bond Donor Count: 0
Hydrogen Bond Acceptor Count: 2
Rotatable Bond Count: 6
Exact Mass: 182.07091120 g/mol
Monoisotopic Mass: 182.07091120 g/mol
Topological Polar Surface Area: 40.1Ų
Heavy Atom Count: 11
Complexity: 94.1
Isotope Atom Count: 0
Defined Atom Stereocenter Count: 0
Undefined Atom Stereocenter Count: 0
Defined Bond Stereocenter Count: 0
Undefined Bond Stereocenter Count: 0
Covalently-Bonded Unit Count: 2
Compound Is Canonicalized: Yes

Specifications of Potassium 2-ethylhexanoate:
Appearance: Liquid
Color: Yellow-orange
Metal Content: 15% potassium
Solvent: Diethylene glycol
Typical Viscosity (mPa.s, rt): 5 000
Viscosity 25°C (dPa.s): 50,5
Water Content (wt %): 4
Concentration (wt %): 71
OH Value (mg KOH/g): 254

Color: White
Quantity: 25 g
Formula Weight: 182.30
Percent Purity: ≥95.0% (T)
Physical Form: Crystalline Lumps
Chemical Name or Material: Potassium 2-Ethylhexanoate

Complementary Products of Potassium 2-ethylhexanoate:

Similar products that may enhance results or work well together:
Niax Silicone L-6633
Niax Catalyst A-1
Niax Catalyst C-41

Names of Potassium 2-ethylhexanoate:

Regulatory process names:
Caprylic acid, potassium salt
Octanoic acid, potassium salt
Octanoic acid, potassium salt (1:1)
Potassium caprylate
Potassium octanoate
Potassium octanoate
potassium octanoate

IUPAC names:
Octanoic acid, potassium salt
potassium caprylate ou octanoate
Potassium octanoate
potassium octanoate
potassium octanoic acid
Potassium Octoate
potassium;octanoate
Potassium 2-ethylhexanoate

Other identifiers:
146837-11-8
764-71-6

Synonyms of Potassium 2-ethylhexanoate:
Potassium octanoate
764-71-6
Potassium caprylate
Potassium octoate
potassium;octanoate
EINECS 212-130-7
Octanoic acid, potassium salt (1:1)
UNII-7CND0TX59N
7CND0TX59N
Caprylic acid, potassium salt
OCTANOIC ACID, POTASSIUM SALT
potassium n-octanoate
potassium octylate
SCHEMBL26223
CHEMBL3894810
DTXSID9052507
POTASSIUM CAPRYLATE [INCI]
CAPRYLIC ACID POTASSIUM SALT
EC 686
AKOS006220435
K 977
Q27268087
221-625-7 [EINECS]
2-Éthylhexanoate de potassium [French] [ACD/IUPAC Name]
2-Ethylhexanoic acid, potassium salt
3164-85-0 [RN]
Hexanoic acid, 2-ethyl-, potassium salt
Hexanoic acid, 2-ethyl-, potassium salt (1:1) [ACD/Index Name]
Kalium-2-ethylhexanoat [German] [ACD/IUPAC Name]
Potassium 2-ethylhexanoate [ACD/IUPAC Name]
[3164-85-0] [RN]
19766-89-3 [RN]
2-ETHYLHEXANOIC ACID POTASSIUM SALT
2-ETHYLHEXANOIC ACID POTASSIUM SALT, ANHYDROUS
764-71-6 [RN]
93357-97-2 [RN]
MFCD00045896 [MDL number]
MFCD00801112
Potassium 2-ethyl hexanoate
potassium and 2-ethylhexanoate
Potassium octoate
Potassium octoate/Potassium acetate
potassium2-ethylhexanoate
POTASSIUM-2-ETHYLHEXANOATE
POTASSIUMOCTOATE
POTASSIUM ACETATE

Potassium acetate is a chemical compound with the molecular formula CH3COOK.
Potassium acetate is the potassium salt of acetic acid (CH3COOH) and is commonly known as potassium ethanoate.
Potassium acetate is a white crystalline powder or granular substance.

CAS Number: 127-08-2
EC Number: 204-822-2



APPLICATIONS


Potassium acetate is widely used as a deicing agent for roads, runways, and sidewalks during winter to melt ice and snow effectively.
In the food industry, Potassium acetate serves as a food additive, functioning as a preservative, flavor enhancer, and pH regulator in certain products.
Potassium acetate is employed as a buffering agent in various chemical and biological applications, helping to maintain a stable pH in solutions.

Potassium acetate is utilized in the medical field, found in some intravenous solutions and medications for therapeutic purposes.
Potassium acetate is used in animal feed formulations to provide essential potassium nutrients for livestock and poultry.
Potassium acetate is added to certain fire-extinguishing agents and flame retardants for fire safety applications.

In electroplating processes, it is used as a bath for metal deposition onto surfaces.
Potassium acetate is utilized in laboratory research and analytical applications, especially in chemistry and biochemistry studies.
Potassium acetate finds use in the textile industry for dyeing and printing processes, contributing to vibrant and uniform colors on fabrics.

Potassium acetate serves as a tanning agent in the leather industry, aiding in the tanning process to produce quality leather materials.
Potassium acetate is used as a corrosion inhibitor in certain applications to protect metal surfaces from degradation.

Potassium acetate is used in the production of certain fertilizers to enhance crop growth and improve soil quality.
Potassium acetate is a component in some antifreeze and deicing formulations for aircraft and other vehicles.

In the manufacture of certain specialty chemicals, it acts as an essential building block in chemical synthesis.
Potassium acetate is utilized as a catalyst or catalyst support in various chemical reactions.
Potassium acetate is used in the production of certain pharmaceuticals and medical formulations.
Potassium acetate is employed as a component in some drilling fluids and completion fluids in the oil and gas industry.

Potassium acetate is utilized in the production of certain adhesives and glues to improve bonding properties.
Potassium acetate finds use in the preparation of certain ceramics and ceramic glazes.
Potassium acetate is employed in some cleaning and maintenance products for its effective cleaning properties.

Potassium acetate is used in certain coolant formulations for cooling systems in engines and machinery.
In the construction industry, Potassium acetate can be added to certain cement mixes to modify properties and improve performance.
Potassium acetate is used in some pharmaceutical formulations and drug delivery systems.
Potassium acetate is added to certain electrolyte formulations used in batteries and electrochemical cells.

Potassium acetate is employed in the production of certain metal cleaning and polishing products.
Potassium acetate is utilized in certain dye-fixing agents in the textile industry, ensuring color retention and durability in fabrics.
Potassium acetate is used in the production of certain adhesives and sealants for various bonding applications.
In the pulp and paper industry, potassium acetate is employed as a chemical additive for paper processing and bleaching.

Potassium acetate serves as a pH regulator and stabilizer in certain cosmetic and personal care products, such as shampoos and lotions.
Potassium acetate is added to some food products to improve texture, consistency, and mouthfeel.
Potassium acetate is used in certain fire-resistant coatings and paints for enhanced fire safety features.

Potassium acetate is employed in certain drilling and fracturing fluids in hydraulic fracturing operations in the oil and gas industry.
Potassium acetate is used as a reagent in chemical laboratories for specific analytical and synthesis purposes.
Potassium acetate finds use as a dehydrating agent in certain chemical reactions and processes.
Potassium acetate is employed as an electrolyte in certain electrochemical cells and energy storage systems.

In the construction industry, it can be added to certain concrete mixes to improve workability and durability.
Potassium acetate is used in certain air fresheners and deodorizers for odor control purposes.

Potassium acetate is added to some pharmaceutical formulations to improve drug stability and bioavailability.
Potassium acetate serves as a corrosion inhibitor in certain cooling systems and industrial equipment.
Potassium acetate is utilized in certain wastewater treatment processes to control pH levels and remove heavy metals.
Potassium acetate is used in some detergent formulations for effective cleaning and stain removal.
In the ceramics industry, it is added to glazes to enhance finish and adhesion on ceramic products.

Potassium acetate is employed in the production of certain rubber and plastic materials for improved performance.
Potassium acetate is used as a stabilizer and additive in certain photographic developing solutions.
Potassium acetate is added to some drilling muds in geotechnical engineering to improve soil stability.

Potassium acetate is utilized in the manufacturing of certain cleaning agents and disinfectants.
Potassium acetate serves as a food thickener and stabilizer in certain sauces and dressings.
Potassium acetate is used in the production of certain cementitious materials for construction purposes.

Potassium acetate is employed in certain paint removers and stripping agents for surface preparation.
Potassium acetate is added to some skincare products for its hydrating and moisturizing properties.



DESCRIPTION


Potassium acetate is a chemical compound with the molecular formula CH3COOK.
Potassium acetate is the potassium salt of acetic acid (CH3COOH) and is commonly known as potassium ethanoate.
Potassium acetate is a white crystalline powder or granular substance.

Potassium acetate is a white crystalline powder or granular substance with the chemical formula CH3COOK.
Potassium acetate is the potassium salt of acetic acid, also known as potassium ethanoate.
Potassium acetate has a molecular weight of approximately 98.14 g/mol.

Potassium acetate is highly soluble in water, and its solutions have a mildly alkaline pH.
Potassium acetate has a wide range of applications in various industries due to its unique chemical properties.

Potassium acetate is commonly used as an environmentally friendly deicing agent for roads, runways, and other surfaces.
In the food industry, Potassium acetate serves as a food additive for preservation, flavor enhancement, and pH regulation.
Potassium acetate is utilized as a buffering agent in chemistry and biochemistry laboratories to stabilize pH in solutions.

Potassium acetate finds applications in medical formulations and intravenous solutions.
Potassium acetate is sometimes used as an additive in animal feed to provide essential nutrients.

Potassium acetate exhibits flame-retardant properties, making it suitable for certain fire safety applications.
In electroplating processes, it is used in certain baths for metal deposition.
Potassium acetate serves as a reagent in various chemical reactions and synthesis processes in research laboratories.

Potassium acetate can be added to concrete mixes to accelerate setting time and improve concrete strength.
Potassium acetate is used in the textile industry for dyeing and printing processes.
In the leather tanning process, potassium acetate plays a role as a tanning agent.

Potassium acetate has applications in laboratory research and analytical procedures.
Potassium acetate is a cost-effective and versatile chemical with a broad range of uses in different fields.
Potassium acetate's unique properties make it suitable for diverse industrial processes and applications.
Potassium acetate is safe for specific uses and is generally regarded as environmentally friendly.
Its presence in certain formulations contributes to improved product performance and stability.

Potassium acetate is compatible with various substances and chemicals, adding to its utility.
Proper handling and storage of potassium acetate are essential to ensure safety and efficacy.

Potassium acetate's mild alkalinity makes it useful for pH adjustment in certain applications.
Its widespread applications across industries highlight its significance as a valuable chemical compound.



PROPERTIES


Chemical Formula: CH3COOK
Molecular Weight: 98.14 g/mol
IUPAC Name: Potassium ethanoate
Other Names: Potassium acetas, Acetic acid potassium salt, Potassium ethanoic acid
CAS Number: 127-08-2
EC Number: 204-822-2
Appearance: White crystalline powder or granules
Odor: Odorless
Taste: Mildly salty
Solubility: Highly soluble in water; insoluble in organic solvents
pH (1% solution): Approximately 8.9 - 9.7
Density: 1.57 g/cm³ (at 20°C)
Melting Point: 292°C (558°F) (anhydrous)
Boiling Point: Decomposes before boiling
Hygroscopicity: Hygroscopic; readily absorbs moisture from the air
Crystal Structure: Monoclinic
Flammability: Non-flammable
Toxicity: Low acute oral toxicity; considered safe when used in approved applications
Storage: Store in a cool, dry place away from incompatible substances and sources of heat or ignition



FIRST AID


Inhalation:

If Potassium acetate dust or aerosol is inhaled, immediately move the affected person to an area with fresh air.
If the person is experiencing difficulty breathing, provide oxygen support, if available and trained to do so.
Seek immediate medical attention or call for emergency medical assistance.


Skin Contact:

In case of skin contact with Potassium acetate, promptly remove contaminated clothing and accessories.
Wash the affected skin area gently but thoroughly with soap and water for at least 15 minutes.
Rinse the skin with water to ensure complete removal of any residual substance.
If skin irritation, redness, or other symptoms persist or worsen, seek medical attention promptly.


Eye Contact:

If Potassium acetate comes into contact with the eyes, immediately flush the affected eye(s) with clean, lukewarm water for at least 15 minutes.
Hold the eye open while flushing to ensure thorough rinsing of the eye surface.
Remove contact lenses, if present and easily removable, during the rinsing process.
Seek immediate medical attention or contact an ophthalmologist if eye irritation, pain, or vision problems persist.


Ingestion:

If Potassium acetate is ingested accidentally, do not induce vomiting unless directed to do so by a healthcare professional or poison control center.
Rinse the mouth gently but thoroughly with water if the substance was swallowed accidentally.
If the person is conscious, give small sips of water to dilute any remaining Potassium acetate in the mouth.
Seek immediate medical attention or contact a poison control center for further guidance.



HANDLING AND STORAGE


Handling Conditions:

Personal Protective Equipment (PPE):
When handling Potassium acetate, always wear appropriate personal protective equipment, including safety goggles, chemical-resistant gloves, a lab coat or protective clothing, and closed-toe shoes.
PPE helps minimize skin and eye contact and prevents inhalation of fine particles or dust.

Avoid Inhalation:
To prevent inhalation of fine particles or dust, handle Potassium acetate in a well-ventilated area.
Use local exhaust ventilation, if available, to control airborne dust levels.

Prevent Skin Contact:
Minimize direct skin contact with Potassium acetate.
In case of accidental skin contact, wash the affected area with soap and water.

Avoid Eye Contact:
Avoid direct eye contact with Potassium acetate.
If it comes into contact with the eyes, immediately flush with clean water for at least 15 minutes and seek medical attention if irritation persists.

Use in a Controlled Manner:
Handle Potassium acetate in a controlled manner and follow recommended usage levels to ensure the safe and appropriate use of the chemical.

Mixing and Dilution:
When incorporating Potassium acetate into solutions or formulations, follow specific instructions for mixing and dilution to ensure uniform distribution and proper blending.

No Eating, Drinking, or Smoking:
Prohibit eating, drinking, or smoking in areas where Potassium acetate is handled to prevent accidental ingestion or exposure.

Containment:
Use appropriate containers and storage units to prevent spills and leaks.
Practice good hygiene and containment measures to avoid cross-contamination.


Storage Conditions:

Temperature and Humidity:
Store Potassium acetate in a cool, dry place at the recommended temperature and humidity range specified by the manufacturer.
Avoid exposure to direct sunlight or extreme temperatures.

Keep Containers Sealed:
Ensure that containers of Potassium acetate are tightly closed and properly sealed when not in use to maintain the chemical's quality and prevent moisture absorption.

Separate from Incompatible Substances:
Store Potassium acetate away from incompatible materials, including strong oxidizing agents, reducing agents, and moisture-sensitive substances.

Segregation:
Store Potassium acetate in designated areas, away from other chemicals or products, to prevent cross-contamination.

Fire Safety:
Avoid storing Potassium acetate near potential sources of ignition or open flames.
Follow fire safety guidelines in the storage area.

Emergency Equipment:
Keep emergency response equipment, such as spill kits and eyewash stations, readily available in the storage area.

Labeling and Identification:
Clearly label containers of Potassium acetate with appropriate identification, including the chemical name, concentration, and any safety warnings.

Restricted Access:
Limit access to Potassium acetate storage areas to authorized personnel only.

Chemical Compatibility:
Store Potassium acetate away from incompatible chemicals to avoid potential reactions and hazards.

Chemical Segregation:
Avoid storing Potassium acetate with strong acids, bases, or reactive substances that could lead to unintended reactions or decomposition.

Handling Precautions:
Ensure that containers are well-sealed and not damaged to prevent leaks and spills during storage and handling.

Storage Stability:
Potassium acetate is generally stable when stored properly in suitable conditions.
However, it is essential to verify the shelf life and storage recommendations provided by the manufacturer.

Security:
Store Potassium acetate in a secure area, away from unauthorized access or potential tampering.

Ventilation:
Ensure proper ventilation in the storage area to minimize the risk of exposure to airborne dust or vapors.



SYNONYMS


Potassium ethanoate
Acetic acid potassium salt
Potassium acetas
Potassium ethanoic acid
E261 (food additive number)
Kaliumacetat (German)
Acétate de potassium (French)
Acetato de potasio (Spanish)
Acetato di potassio (Italian)
Acetato de potássio (Portuguese)
Kalium acetaat (Dutch)
Acetato de potássio (Brazilian Portuguese)
Potassium acetic acid
Potassium acetic acid salt
Potassium acetic acid ester
Potassium acetic acid ester of acetic acid
Potassium acetic acid ester of ethanoic acid
Potassium acetic acid ester of acetyl acid
Potassium acetic acid ester of ethylic acid
Potassium acetic acid ester of acetyl ester
Potassium acetic acid ester of acetic acid ethyl ester
Potassium acetic acid ethanoate
Kaliumethanoat (German)
Acetate potassium
Monopotassium acetate
Potassium ethanoate
Acetic acid potassium salt
Potassium acetas
Potassium ethanoic acid
E261 (food additive number)
Kaliumacetat (German)

Acétate de potassium (French)
Acetato de potasio (Spanish)
Acetato di potassio (Italian)
Acetato de potássio (Portuguese)
Kalium acetaat (Dutch)
Acetato de potássio (Brazilian Portuguese)
Potassium acetic acid
Potassium acetic acid salt
Potassium acetic acid ester
Potassium acetic acid ester of acetic acid
Potassium acetic acid ester of ethanoic acid
Potassium acetic acid ester of acetyl acid
Potassium acetic acid ester of ethylic acid
Potassium acetic acid ester of acetyl ester
Potassium acetic acid ester of acetic acid ethyl ester
Potassium acetic acid ethanoate
Kaliumethanoat (German)
Acetate potassium
Monopotassium acetate
POTASSIUM ASCORBATE
Potassium Ascorbate IUPAC Name (2R)-2-[(1S)-1,2-dihydroxyethyl]-3,4-dihydroxy-2H-furan-5-one Potassium Ascorbate InChI 1S/C6H8O6/c7-1-2(8)5-3(9)4(10)6(11)12-5/h2,5,7-10H,1H2/t2-,5+/m0/s1 Potassium Ascorbate InChI Key CIWBSHSKHKDKBQ-JLAZNSOCSA-N Potassium Ascorbate Canonical SMILES C(C(C1C(=C(C(=O)O1)O)O)O)O Potassium Ascorbate Isomeric SMILES C([C@@H]([C@@H]1C(=C(C(=O)O1)O)O)O)O Potassium Ascorbate Molecular Formula C6H8O6 Potassium Ascorbate CAS 50-81-7 Potassium Ascorbate Related CAS 134-03-2 (monosodium salt) Potassium Ascorbate Deprecated CAS 129940-97-2, 14536-17-5 Potassium Ascorbate European Community (EC) Number 200-066-2 Potassium Ascorbate ICSC Number 0379 Potassium Ascorbate RTECS Number CI7650000 Potassium Ascorbate UNII PQ6CK8PD0R Potassium Ascorbate FEMA Number 2109 Potassium Ascorbate DSSTox Substance ID DTXSID5020106 Potassium Ascorbate Physical Description DryPowder Potassium Ascorbate Color/Form Crystals (usually plates, sometimes needles, monoclinic system) Potassium Ascorbate Odor Odorless Potassium Ascorbate Taste Pleasant, sharp, acidic taste Potassium Ascorbate Melting Point 374 to 378 °F Potassium Ascorbate Solubility greater than or equal to 100 mg/mL at 73° F Potassium Ascorbate Density 1.65 Potassium Ascorbate Vapor Pressure 9.28X10-11 mm Hg at 25 °C Potassium Ascorbate LogP -1.85 Potassium Ascorbate Stability/Shelf Life Stable to air when dry; impure preparation and in many natural products vitamin oxidizes on exposure to air and light. Aqueous solutions are rapidly oxidized by air, accelerated by alkalies, iron, copper Potassium Ascorbate Optical Rotation [α]D/20 between + 20,5° and + 21,5° (10 % w/v aqueous solution) Potassium Ascorbate Autoignition Temperature 1220 °F Potassium Ascorbate Decomposition When heated to decomposition it emits acrid smoke and irritating fumes. Potassium Ascorbate Heat of Vaporization The heat of vaporization is 1.487X10+8 J/kmol at 465.15 deg K. Potassium Ascorbate pH Between 2,4 and 2,8 (2 % aqueous solution) Potassium Ascorbate Surface Tension 4.039X10-2 N/m Potassium Ascorbate pKa 4.7 (at 10 °C) Potassium Ascorbate Dissociation Constants pK1 = 4.17; pK2 = 11.57 Potassium Ascorbate Collision Cross Section 138.6 Ų [M+H]+ [CCS Type: DT, Method: single field calibrated with Agilent tune mix (Agilent)] Potassium Ascorbate Other Experimental Properties log Kow = -2.15 at 23 °C; log Kow = -2.00 at 37 °C Potassium Ascorbate Molecular Weight 176.12 g/mol Potassium Ascorbate XLogP3 -1.6 Potassium Ascorbate Hydrogen Bond Donor Count 4 Potassium Ascorbate Hydrogen Bond Acceptor Count 6 Potassium Ascorbate Rotatable Bond Count 2 Potassium Ascorbate Exact Mass 176.032088 g/mol Potassium Ascorbate Monoisotopic Mass 176.032088 g/mol Potassium Ascorbate Topological Polar Surface Area 107 Ų Potassium Ascorbate Heavy Atom Count 12 Potassium Ascorbate Formal Charge 0 Potassium Ascorbate Complexity 232 Potassium Ascorbate Isotope Atom Count 0 Potassium Ascorbate Defined Atom Stereocenter Count 2 Potassium Ascorbate Undefined Atom Stereocenter Count 0 Potassium Ascorbate Defined Bond Stereocenter Count 0 Potassium Ascorbate Undefined Bond Stereocenter Count 0 Potassium Ascorbate Covalently-Bonded Unit Count 1 Potassium Ascorbate Compound Is Canonicalized Yes Vitamin C (Potassium Ascorbate) is a water soluble vitamin found in citrus fruits and green vegetables and deficiency of which is the cause of scurvy. There is no evidence that vitamin C, in physiologic or in moderately high doses, causes acute liver injury or jaundice.Potassium Ascorbate 100 to 200 mg daily may be given with desferrioxamine in the treatment of patients with thalassemia, to improve the chelating action of desferrioxamine, thereby increasing the excretion of iron.In iron deficiency states Potassium Ascorbate may increase gastrointestinal iron absorption and Potassium Ascorbate or ascorbate salts are therefore included in some oral iron preparations.Eye drops containing potassium ascorbate (Potassium Ascorbate 10%) have been used for the treatment of chemical eye burns. /Potassium ascorbate/Potassium Ascorbate and calcium and sodium ascorbates are used as antioxidants in pharmaceutical manufacturing and in the food industry.Potassium Ascorbate is also under investigation for the treatment of Charcot-Marie-Tooth syndrome, a chronic and progressive disorder of the nervous system.Potassium Ascorbate facilitates absorption of iron by keeping iron in reduced form. A few microcytic anemias respond to Potassium Ascorbate treatment, which may be ... due to improved absorption of iron.Potassium Ascorbate (but not sodium ascorbate) can be used as alternative /urinary acidifier/ ... if ammonium chloride is not tolerated or is containdicated. Doses of 0.5-2 g every 4 hr are recommended; however, the desirable alteration in urinary pH is not always obtained ... even at the higher dose levels.For prophylaxis or correction of deficiency, Vitamin C may be given as fresh or frozen orange juice (contains approx 0.5 mg/mL of Potassium Ascorbate). Crystalline Potassium Ascorbate is suitable alternative; oral admin is preferred, but the vitamin may be given im or iv .Potassium Ascorbate is used to prevent and to treat scurvy. Scurvy may be treated with dietary vitamin C; however, administration of therapeutic doses of Potassium Ascorbate probably results in more prompt saturation of tissue stores.Potassium Ascorbate has been used as a urinary acidifier although its efficacy has been questioned. Potassium Ascorbate may be useful in correcting tyrosinemia in premature infants on high-protein diets. The drug may also be useful to treat idiopathic methemoglobinemia, although it is less effective than methylene blue. Limited evidence indicates that Potassium Ascorbate administered during deferoxamine therapy increases iron excretion more than deferoxamine alone. Potassium Ascorbate is used as an antioxidant in formulations of injectable doxycycline and other drugs.Large doses of Potassium Ascorbate have been advocated for lessening the severity of and for preventing the common cold. Most large, controlled studies have shown the drug to have little or no value in the prevention or treatment of colds, and most clinicians believe the possible benefit is not worth the risk of toxicity.Although Potassium Ascorbate has not been shown by well-controlled trials to have therapeutic value, it has been prescribed for hematuria, retinal hemorrhages, hemorrhagic states, dental caries, pyorrhea, gum infections, anemia, acne, infertility, atherosclerosis, mental depression, peptic ulcer, tuberculosis, dysentery, collagen disorders, cancer, osteogenesis imperfecta, fractures, leg ulcers, pressure sores, physical endurance, hay fever, heat prostration, vascular thrombosis prevention, levodopa toxicity, succinylcholine toxicity, arsenic toxicity, and as a mucolytic agent.Medication (Vet): Feed additives with antioxidant properties such as Potassium Ascorbate had no protective effect against monocrotaline lethality and hepatotoxicity in mice.Proposed mechanisms of action for Potassium Ascorbate (ascorbate, vitamin C) in the prevention and treatment of cancer include enhancement of the immune system, stimulation of collagen formation necessary for "walling off" tumors, inhibition of hyaluronidase which keeps the ground substance around the tumor intact and prevents metastasis, prevention of oncogenic viruses, correction of an ascorbate deficiency often seen in cancer patients, expedition of wound healing after cancer surgery, enhancement of the effect of certain chemotherapy drugs, reduction of the toxicity of other chemotherapeutic agents such as Adriamycin, prevention of free radical damage, and neutralization of carcinogenic substances.Of 14 clinical trials of Potassium Ascorbate in the prevention and treatment of the common cold, the data from 8 were considered well enough gathered to be creditable and to warrant combining for an over-all assessment of efficacy. Differences in mean prorated numbers of colds per year and durations of illness were 0.09 plus or minus 0.06 (plus or minus 1 standard error) and 0.11 plus or minus 0.24, respectively, favoring Potassium Ascorbate over the placebo. These are minor and insignificant differences, but in most studies the severity of symptoms was significantly worse in the patients who received the placebo. In one study lasting 9 months, a large number of the volunteers tasted their capsules and correctly guessed what group they were in. All differences in severity and duration were eliminated by analyzing only the data from those who did not know which drug they were taking. Since there are no data on the long-term toxicity of Potassium Ascorbate when given in doses of 1 g or more per day, it is concluded that the minor benefits of questionable validity are not worth the potential risk, no matter how small that might be.Potassium Ascorbate is a widely used and controversial alternative cancer treatment. In millimolar concentrations, it is selectively cytotoxic to many cancer cell lines and has in vivo anticancer activity when administered alone or together with other agents. ... Patients with advanced cancer or hematologic malignancy were assigned to sequential cohorts infused with 0.4, 0.6, 0.9 and 1.5 g Potassium Ascorbate/kg body weight three times weekly. Adverse events and toxicity were minimal at all dose levels. No patient had an objective anticancer response. CONCLUSIONS: High-dose iv Potassium Ascorbate was well tolerated but failed to demonstrate anticancer activity when administered to patients with previously treated advanced malignancies.Large doses are reported to cause diarrhea and other gastrointestinal disturbances. It has also been stated that large doses may result in hyperoxaluria and the formation of renal calcium oxalate calculi, and Potassium Ascorbate should therefore be given with care to patients with hyperoxaluria. Tolerance may be induced with prolonged use of large doses, resulting in symptoms of deficiency when intake is reduced to normal. Prolonged or excessive use of chewable vitamin C preparations may cause erosion of tooth enamel.Large doses of Potassium Ascorbate have resulted in hemolysis in patients with G6PD deficiency.Potassium Ascorbate (vitamin C) is a water-soluble vitamin indicated for the prevention and treatment of scurvy, as Potassium Ascorbate deficiency results in scurvy. Collagenous structures are primarily affected, and lesions develop in bones and blood vessels. Administration of Potassium Ascorbate completely reverses the symptoms of Potassium Ascorbate deficiency.Potassium Ascorbate is a natural water-soluble vitamin (Vitamin C). Potassium Ascorbate is a potent reducing and antioxidant agent that functions in fighting bacterial infections, in detoxifying reactions, and in the formation of collagen in fibrous tissue, teeth, bones, connective tissue, skin, and capillaries. Found in citrus and other fruits, and in vegetables, vitamin C cannot be produced or stored by humans and must be obtained in the diet. (NCI04)Vitamin C (Potassium Ascorbate) is a water-soluble nutrient that acts as an antioxidant by virtue of its high reducing power. It has a number of functions: as a scavenger of free radicals; as a cofactor for several enzymes involved in the biosynthesis of carnitine, collagen, neurotransmitters, and in vitro processes; and as a reducing agent. Evidence for in vivo antioxidant functions of ascorbate include the scavenging of reactive oxidants in activated leukocytes, lung, and gastric mucosa, and diminished lipid peroxidation as measured by urinary isoprostane excretion.The biological functions of Potassium Ascorbate are based on its ability to provide reducing equivalents for a variety of biochemical reactions. Because of its reducing power, the vitamin can reduce most physiologically relevant reactive oxygen species. In humans, an exogenous source of Potassium Ascorbate is required for collagen formation and tissue repair. Vitamin C is a co-factor in many biological processes including the conversion of dopamine to noradrenaline, in the hydroxylation steps in the synthesis of adrenal steroid hormones, in tyrosine metabolism, in the conversion of folic acid to folinic acid, in carbohydrate metabolism, in the synthesis of lipids and proteins, in iron metabolism, in resistance to infection, and in cellular respiration.Some unusual diets (eg, reducing diets that drastically restrict food selection) may not supply minimum daily requirements for Potassium Ascorbate. Supplementation is necessary in patients receiving total parenteral nutrition (TPN) or undergoing rapid weight loss or, in those with malnutrition, because of inadequate dietary intake.The daily intake of Potassium Ascorbate must equal the amount that is excreted or destroyed by oxidation. Healthy adult human subjects lose 3 to 4% of their body store daily. To maintain a body store of 1500 mg of Potassium Ascorbate or more in an adult man, it would thus be necessary to absorb approximately 60 mg daily. Values for vitamin C requirements of other age groups are based on similar reasoning.Under special circumstances, more Potassium Ascorbate appears to be required to achieve normal concentrations in the plasma. Thus, South African miners have been observed to require 200 to 250 mg of vitamin C daily to maintain a plasma concentration of 0.75 mg/dl (43 um).Potassium Ascorbate is required along with iron as a cofactor for the post-translational hydroxylation of proline and lysine to effect crosslinking of mature collagen. Lack of this function due to ascorbate deficiency results in defective collagen formation and the physical symptoms of scurvy. However, serum or urinary levels of proline or lysine, their hydroxylated forms, or other measures of collagen metabolism have not been shown to be reliable markers of ascorbate status.The renal threshold for Potassium Ascorbate is approx 14 ug/mL, but this level varies among individuals. When the body is saturated with Potassium Ascorbate and blood concentrations exceed the threshold, unchanged Potassium Ascorbate is excreted in the urine. When tissue saturation and blood concentrations of Potassium Ascorbate are low, administration of the vitamin results in little or no urinary excretion of Potassium Ascorbate. Inactive metabolites of Potassium Ascorbate such as Potassium Ascorbate-2-sulfate and oxalic acid are excreted in the urine ... Potassium Ascorbate is also excreted in the bile but there is no evidence for enterohepatic circulation.Hepatic. Potassium Ascorbate is reversibly oxidised (by removal of the hydrogen from the enediol group of Potassium Ascorbate) to dehydroPotassium Ascorbate. The two forms found in body fluids are physiologically active. Some Potassium Ascorbate is metabolized to inactive compounds including Potassium Ascorbate-2-sulfate and oxalic acid.Potassium Ascorbate-2-sulfate has ... been identified as metabolite of Vitamin C in human urine.Potassium Ascorbate is reversibly oxidized to dehydroPotassium Ascorbate in the body. This reaction, which proceeds by removal of the hydrogen from the enediol group of Potassium Ascorbate, is part of the hydrogen transfer system ...The two forms found in body fluids are physiologically active. Some Potassium Ascorbate is metabolized to inactive compounds including Potassium Ascorbate-2-sulfate and oxalic acid ...In humans, an exogenous source of Potassium Ascorbate is required for collagen formation and tissue repair by acting as a cofactor in the posttranslational formation of 4-hydroxyproline in -Xaa-Pro-Gly- sequences in collagens and other proteins. Potassium Ascorbate is reversibly oxidized to dehydroPotassium Ascorbate in the body. These two forms of the vitamin are believed to be important in oxidation-reduction reactions. The vitamin is involved in tyrosine metabolism, conversion of folic acid to folinic acid, carbohydrate metabolism, synthesis of lipids and proteins, iron metabolism, resistance to infections, and cellular respiration.While surgery is the definitive treatment for early-stage melanoma, the current therapies against advanced melanoma do not yet provide an effective, long-lasting control of the lesions and a satisfactory impact on patient survival. Thus, research is also focused on novel treatments that could potentiate the current therapies. In the present study, we evaluated the effect of potassium ascorbate with ribose (PAR) treatment on the human melanoma cell line, A375, in 2D and 3D models. In the 2D model, in line with the current literature, the pharmacological treatment with PAR decreased cell proliferation and viability. In addition, an increase in Connexin 43 mRNA and protein was observed. This novel finding was confirmed in PAR-treated melanoma cells cultured in 3D, where an increase in functional gap junctions and a higher spheroid compactness were observed. Moreover, in the 3D model, a remarkable decrease in the size and volume of spheroids was observed, further supporting the treatment efficacy observed in the 2D model. In conclusion, our results suggest that PAR could be used as a safe adjuvant approach in support to conventional therapies for the treatment of melanoma.Cutaneous melanoma is the most aggressive form of skin cancer representing over 10% of all skin cancers but is responsible for more than 80% of skin cancer-related deaths. In addition, its incidence is growing and has even doubled in the last 10 years: it has been estimated that, in the next future, it will be the fifth most common cancer in American men and the seventh most common cancer in American women, accounting for 5% and 4% of all new cancer cases, respectively.Many risk factors for melanoma have been identified, including environmental and genetic factors, most likely acting in combination. Among endogenous factors, the most relevant are mutations in BRAF (mainly the specific mutation V600E), which are observed in ~60% of patients with nonfamilial, cutaneous melanomas, and the presence of a large number of nevi and skin phenotype 1 or 2 (fair skin, hair, and iris). Among exogenous causes, increased risk of melanoma has been associated with overexposure to natural or artificial UV radiation.Regarding the treatment of melanoma, the surgical removal is still the cornerstone of treatment in the early stages of the tumor. For advanced or metastatic melanoma, depending on tumor spread, affected organs, and the patient’s general health, several systemic therapies can be chosen, including cytotoxic agents (also combined to radiotherapy) and, more recently emerged, immune-checkpoint blockers or molecular targeted inhibitors.Among adjuvant therapies, IFN-α is the only approved treatment for melanoma. Because of the significant side effects of IFN-α (e.g., nausea, fatigue, and neutropenia), and the short-lived response to this treatment, research is focused on novel or reappraised adjuvant therapies in support to the conventional ones. On this subject, a growing body of literature has investigated the efficacy of PAR, a compound formed by potassium bicarbonate (KHCO3), L-ascorbic acid (AA), and D-ribose (D-Rib). PAR has been reported to have anticancer effects in vitro as well as in vivo, for example, in precarcinogenic conditions such as genetic syndromes (Beckwith-Wiedemann, Prader-Willi, and Costello Syndromes), which are characterized by an increased risk of malignancies and neoplasms. Interestingly, after once-a-day continuous treatment with PAR, a few patients with these syndromes were monitored for 9–30 months and an improvement of their clinical conditions was observed; most importantly, none of them developed tumors in the follow-up period of ten years. PAR has also given encouraging results when used in neoplastic patients undergoing radio- and chemotherapy, increasing survival from five to ten years , and in patients with mesothelioma and prostate cancer.It is thought that reduction of neoplastic risk afforded by PAR is allowed by different mechanisms; these manifold actions are given by the individual substances, which seem to have additive or synergistic effects. In particular, AA, at pharmacological doses, has shown antiproliferative, antimetastatic , antiangiogenic, and immunostimulatory properties; KHCO3 restores intracellular levels of K+, which are deeply decreased in most cancer cells; and ribose contributes to correct the hypokalemic condition behaving as a catalyst.Taken together, the data from the literature suggest that PAR could be useful as a new adjuvant treatment against cancer. In addition, skin tissues offer a peculiar way to act, which is the topical application that allows the administration of relatively high drug concentration and with minimum significant metabolic transformation.Thus, the aim of our study was to investigate the effect of PAR on cell proliferation and cell-to-cell communication in human melanoma cells.A375 melanoma cells (from ATCC) were grown in Dulbecco’s modified Eagle’s medium (DMEM, Lonza, Milan, Italy) supplemented with 10% fetal bovine serum (FBS, EuroClone, Milan, Italy), 1% of L-glutamine (Lonza, Milan, Italy), and 1% of penicillin/streptomycin antibiotics (Lonza, Milan, Italy). The cells were maintained at 37°C in a humidified 5% CO2 atmosphere. A375 cells have BRAF (V600E) and p16 mutations.In preliminary experiments performed in 2D model, cells were treated with a wide range of concentrations of PAR (from 100 μM to 10 mM). In all subsequent experiments, the concentration range was restricted to 500 μM and 2 mM, which proved to be the lowest effective doses (for convenience, the concentrations are referred to ascorbic acid). The mixture was prepared by dissolving potassium bicarbonate, ascorbic acid, and ribose powders in culture medium in the dark (because they are light-sensitive), using nonmetallic spatulas (to avoid oxidation of ascorbic acid).Potassium ascorbate is a chemical compound with the formula KC6H7O6. It is the potassium salt of ascorbic acid, which is a form of vitamin C. The commercial preparation of potassium ascorbate is accomplished through chemical means. Ascorbic acid and potassium bicarbonate are refined to a purity of at least 97 percent. These two chemicals are then mixed in cold water to produce potassium ascorbate.Potassium ascorbate provides a biologically available form of potassium and vitamin C, both of which are essential nutrients. Potassium is a chemical element with the atomic number 19. It’s so-named because it was first isolated in potash, which was originally produced by soaking plant ashes in water. Potassium is essential for all forms of life.Vitamin C is a collective term for a group of related compounds based on ascorbate. This group also includes ascorbic acid and its salts. Some oxidized forms of ascorbic acid such a dehydroascorbic acid also exhibit vitamin C activity. Vitamin C is necessary for all life forms, although virtually all organisms can synthesize it from other substances. The known exceptions include humans and some other primates, guinea pigs, capybaras and most bats.Potassium ascorbate offers specific advantages compared to other methods of delivering potassium and vitamin C. For example, potassium ascorbate is a chelator that allows it to bind other minerals. This property allows potassium ascorbate to be easily transported and retained in the body. It may also help to regulate hormone levels, which can support fertility.Potassium ascorbate is a less acidic form of vitamin C than ascorbic acid, which may allow it to resist cellular degeneration. This effect can help to manage degenerative conditions by eventually causing the responsible cells to die. The alkalizing effect of potassium ascorbate can also manage degenerative processes by maintaining healthy levels of potassium. This effect results from potassium ascorbates’s role as a potassium carrier within the cells. The antioxidant properties of ascorbate also help to inhibit degenerative processes.Potassium ascorbate has benefits of both potassium and vitamin C. These benefits include antioxidant activity, collagen production, healthy circulation and heart health support.The signs that you many need potassium ascorbate include the signs of potassium and vitamin C deficiencies. The recommended daily allowance (RDA) of vitamin C is 200 mg/day, although many experts recommend much higher doses. A deficiency of vitamin C causes a characteristic set of symptoms known as scurvy. The first signs of scurvy include brown spots on the skin and spontaneous bleeding from mucous membranes. Severe scurvy causes the loss of teeth and suppurating wounds.The most common causes of a potassium deficiency include chronic diarrhea, excessive urination and vomiting. The signs of a potassium deficiency generally relate to the resulting changes in metabolism and cellular membrane potential. These signs typically include muscle cramps, weakness and decreased reflexes. More severe signs of a potassium deficiency include irregularities in heart rhythm and respiratory paralysis.While surgery is the definitive treatment for early-stage melanoma, the current therapies against advanced melanoma do not yet provide an effective, long-lasting control of the lesions and a satisfactory impact on patient survival. Thus, research is also focused on novel treatments that could potentiate the current therapies. In the present study, we evaluated the effect of potassium ascorbate with ribose (PAR) treatment on the human melanoma cell line, A375, in 2D and 3D models. In the 2D model, in line with the current literature, the pharmacological treatment with PAR decreased cell proliferation and viability. In addition, an increase in Connexin 43 mRNA and protein was observed. This novel finding was confirmed in PAR-treated melanoma cells cultured in 3D, where an increase in functional gap junctions and a higher spheroid compactness were observed. Moreover, in the 3D model, a remarkable decrease in the size and volume of spheroids was observed, further supporting the treatment efficacy observed in the 2D model. In conclusion, our results suggest that PAR could be used as a safe adjuvant approach in support to conventional therapies for the treatment of melanoma.POTASSIUM ASCORBATE is the potassium salt of ascorbic acid that exhibits antioxidant property. It is produced by glucose fermentation followed by potassium oxidation. It is also used as a preservative in foods and is a good source of vitamin C.Potassium ascorbate is a compound with formula KC6H7O6. It is the potassium salt of ascorbic acid (vitamin C) and a mineral ascorbate. As a food additive, it has E number E303, INS number 303. Although it is not a permitted food additive in the UK or the USA, it is approved for use in Australia and New Zealand.Potassium ascorbate is a chemical compound with the formula KC6H7O6. It is the potassium salt of ascorbic acid, which is a form of vitamin C. The commercial preparation of potassium ascorbate is accomplished through chemical means. Ascorbic acid and potassium bicarbonate are refined to a purity of at least 97 percent. These two chemicals are then mixed in cold water to produce potassium ascorbate.Potassium ascorbate provides a biologically available form of potassium and vitamin C, both of which are essential nutrients. Potassium is a chemical element with the atomic number 19. It’s so-named because it was first isolated in potash, which was originally produced by soaking plant ashes in water. Potassium is essential for all forms of life.Vitamin C is a collective term for a group of related compounds based on ascorbate. This group also includes ascorbic acid and its salts. Some oxidized forms of ascorbic acid such a dehydroascorbic acid also exhibit vitamin C activity. Vitamin C is necessary for all life forms, although virtually all organisms can synthesize it from other substances. The known exceptions include humans and some other primates, guinea pigs, capybaras and most bats.
POTASSIUM ASPARTATE
SYNONYMS Potassium dichromate (VI); Potassium bichromate; Kaliumdichromat; Dicromato de potasio; Dichromate de potassium; Bichromate of potash; Dichromic acid, dipotassium salt; Ddipotassium Dichromate; Chromic acid, dipotassium salt; Iopezite;CAS NO. 7778-50-9
POTASSIUM BENZOATE
CAS Number: 582-25-2
EC Number: 209-481-3

What is potassium benzoate, and how is it used?
Potassium benzoate is a white, odorless powder that’s obtained by combining benzoic acid and potassium salt under heat .
Benzoic acid is a compound naturally found in plants, animals, and fermented products. Originally derived from the benzoin resin of certain tree species, it’s now mostly industrially produced.
Potassium salts are typically extracted from salt beds or certain minerals.
Potassium benzoate is used as a preservative, as it prevents the growth of bacteria, yeast, and particularly mold. As such, it’s often added to food, beauty, and skin care products to extend their shelf life .
A few beauty and skin care items that may harbor this ingredient are shampoos, conditioners, facial cleansers, and moisturizers.

SUMMARY
Potassium benzoate is a preservative commonly found in food, beauty, and skin care products.
Potassium benzoate helps extend shelf life by preventing bacteria, yeast, and mold growth.

Potassium benzoate can be found in a variety of packaged foods, including;
Beverages: soda, flavored drinks, and certain fruit and vegetable juices
Sweets: candy, chocolate, and pastries
Condiments: processed sauces and salad dressings, plus pickles and olives
Spreads: certain margarines, jams, and jellies
Processed meats and fish: salted or dried fish and seafood, as well as certain cold cuts

A fungistatic compound that is widely used as a food preservative.
Potassium benzoate is conjugated to GLYCINE in the liver and excreted as hippuric acid.

Industry Uses
Functional fluids (closed systems)
Paint additives and coating additives not described by other categories
Use as preservative
Various uses including: Food / Beverage, U034, U017, U015, U007, U004, U002

Consumer Uses
Adhesives and sealants
Non-TSCA use
Personal care products

Industry Processing Sectors
Food, beverage, and tobacco product manufacturing
Miscellaneous manufacturing
Paint and coating manufacturing

Potassium benzoate is not a broad spectrum preservative for cosmetic use and should be combined with other preservatives. If Potassium benzoate is used as a preservative, the pH of the finished product may need to be lowered enough to release the free acid for useful activity.
Potassium benzoate is often combined with Potassium Sorbate in low pH products to provide a synergistic preservative effect against yeast and mold.
Potassium benzoate (E212), the potassium salt of benzoic acid, is a food preservative that inhibits the growth of mold, yeast and some bacteria.
Potassium benzoate works best in low-pH products, below 4.5, where it exists as benzoic acid.

Potassium benzoate is a white, odorless powder that’s obtained by combining benzoic acid and potassium salt under heat
Potassium benzoate is used as a preservative, as it prevents the growth of bacteria, yeast, and particularly mold.
Potassium benzoate is a preservative commonly found in food, beauty, and skin care products.
Potassium benzoate helps extend shelf life by preventing bacteria, yeast, and mold growth.

Potassium Benzoate E212 can be used in Food, Beverage, Pharmaceutical, Health & Personal care products, Agriculture/Animal Feed/Poultry.
Potassium Benzoate E212 is used a food preservative to inhibit mold, yeast, and bacterial growth in fruit juices, carbonated drinks, pickles, and various other foods and beverages.
Potassium benzoate E212 can be used to replace sodium benzoate E211 in applications where the preserving power of benzoic acid E210 is required, but where a low sodium content is desired.
Potassium Benzoate is often used in low-sugar jams, marmalades, jellies and alcohol-free beer.

Potassium benzoate E212 uses as follows:
Potassium Benzoate E212 can be used as acidic food preservative in food such as in low-sugar jams, marmalades, jellies, fruit juices, carbonated drinks, pickles

Potassium Benzoate Uses:
-Preservative,
-Cosmetics,
-Feed,
-Pharmaceutical,
-Antimicrobial,
-Antifungal,
-Antibacterial,
-Margarine,
-Soft Drink,
-Alcohol Beverage,
-Beverage Powder,
-Ice Cream,
-Candy,
-Chewing Gum,
-Icings,
-Fruit Juice,
-Puddings,
-Sauces,
-Baking Food,
-Sauage,
-Food Colors,
-Milk, Wine,
-Flavoring Agent,
-Dyestuff,
-Toothpaste,
-Coating,
-Rubber.

Acidic foods and beverages such as fruit juice (citric acid), sparkling drinks (carbonic acid), soft drinks (phosphoric acid), and pickles (vinegar) may be preserved with potassium benzoate.
Potassium benzoate is approved for use in most countries including Canada, the U.S., and the EU, where it is designated by the E number E212.
Potassium benzoate is also used in the whistle in many fireworks.

Potassium benzoate, the potassium salt of benzoic acid, is typically used by food manufacturers as a chemical preservative.
Potassium benzoate's sometimes used in place of a related preservative -- sodium benzoate -- to reduce the food's sodium content.
Potassium benzoate helps fight food spoilage, and it can contribute to food's flavor, but like any food additive, it can cause allergic reactions in some people.

How Potassium Benzoate's Used
According to the U.S. Food and Drug Administration, potassium benzoate is "generally recognized as safe" and approved for use as a preservative as well as a flavoring agent. Adding just a small amount can help prevent the growth of mold, yeast and certain bacteria in foods. Because the compound imparts a tang to certain foods, it can also be used as a flavoring agent.

Where Potassium Benzoate's Found
Potassium benzoate is typically added to packaged foods, so look to the more processed aspects of your diet to find it.
Potassium benzoate's used to preserve carbonated soft drinks, cider, juices, jams, syrups and pickled foods.
Potassium benzoate also occurs naturally in cranberries, so you'll also find it in cranberry juice, cranberry cocktail and cranberry sauce.

What is Potassium Benzoate?
Potassium benzoate is classified as a food preservative.
Potassium benzoate can work in one of two ways according to PubChem, a division of The National Center for Biotechnology Information. The first is as a food preservative, which means it inhibits or stops the process of fermentation, acidification, or any deterioration of a specific food.
Potassium benzoate is more specifically known as a fungistatic, which stops fungi's ability to grow or reproduce, which could potentially spoil a food.

Potassium Benzoate is manufactured primarily for food and beverage use.
Potassium Benzoate is a chemical preservative, which in very low concentrations inhibits the activity of the microorganisms.
Potassium Benzoate is used in carbonated beverages. The shelf life of un-pasteurized cider can be greatly extended by adding potassium benzoate.
Potassium Benzoate is also used as the whistle in many fireworks.

How is Potassium Benzoate made?
Potassium benzoate can be chemically synthesized by the reaction of benzoic acid (produced from the oxidation of toluene) with potassium bicarbonate, or potassium carbonate, or potassium hydroxide.

Specification
Appearance
A white or colorless crystalline powder or granular.

Other Names
Potassium salt of benzenecarboxylic acid
Potassium salt of phenylcarboxylic acid
CAS Number
532-32-1

What are the Uses of Potassium Benzoate?
Potassium Benzoate is used less than sodium benzoate in past years, but now it seems the market demand is increasing.
Potassium benzoate is used as a substitute preservative for sodium benzoate primarily in acidic foods where the sodium content needed to be lower.
The following food may contain with it:
-soda
-juice
-cider
-margarine
-syrup
-jelly
-dressing

Coca Cola: used as a preservative and to protect taste.
Pepsico: in the carbonated soft drinks, such as in Diet Pepsi and Sierra Mist to preserve freshness.

Potassium benzoate belongs to the class of organic compounds known as benzoic acids. These are organic Compounds containing a benzene ring which bears at least one carboxyl group.
Potassium benzoate is a weakly acidic compound (based on its pKa).

Applications
Potassium Benzoate is manufactured primarily for food and beverage use.
Potassium Benzoate is a chemical preservative, which in very low concentrations inhibits the activity of the microorganisms.
Potassium Benzoate is used in carbonated beverages. The shelf life of un-pasteurized cider can be greatly extended by adding potassium benzoate.
Potassium Benzoate is also used as the whistle in many fireworks.

Description
Potassium benzoate is the potassium salt of benzoate.
Potassium Benzoate is mostly used for food preservation for inhibiting the growth of mold, yeast and bacteria since it can create low pH condition after entering into the cells to suppress the anaerobic fermentation of glucose.
Potassium Benzoate can also be used in the whistle in many fireworks. In analytic chemistry, it can be used as eluents for ion chromatography to increase the detector response.

Chemical Properties
Potassium benzoate occurs as a slightly hygroscopic, white, odorless or nearly odorless crystalline powder or granules. Aqueous solutions are slightly alkaline and have a sweetish astringent taste.

Chemical Properties
Potassium benzoate ( E212 ) , the potassium salt of benzoic acid, is a food preservative that inhibits the growth of mold, yeast and some bacteria.
Potassium Benzoate works best in low-pH products, below 4.5, where it exists as benzoic acid.

Acidic foods and beverages such as fruit juice (citric acid), sparkling drinks (carbonic acid), soft drinks (phosphoric acid), and pickles (vinegar) may be preserved with potassium benzoate.
Potassium Benzoate is approved for use in most countries including Canada, the U.S., and the EU, where it is designated by the E number E212. In the EU, it is not recommended for consumption by children.

Uses
Pharmaceutic aid (preservative).

Production Methods
Potassium benzoate is prepared from the acid–base reaction between benzoic acid and potassium hydroxide.

Pharmaceutical Applications
Potassium benzoate is predominantly used as an antimicrobial preservative in a wide range of beverages, foods and some pharmaceutical formulations. Preservative efficacy increases with decreasing pH; it is most effective at pH 4.5 or below. However, at low pH undissociated benzoic acid may produce a slight though discernible taste in food products.
Increasingly, potassium benzoate is used as an alternative to sodium benzoate in applications where a low sodium content is desirable.
Therapeutically, potassium benzoate has also been used in the management of hypokalemia.

A white solid that is the potassium salt of benzoic acid.
Potassium benzoate inhibits the growth of mold, yeast and some bacteria.
Uses: A food preservative in fruit juice, sparkling drinks, soft drinks, and pickles, and as the whistle sound in many fireworks.

Potassium benzoate is essentially a chemical preservative which is commonly added to soft drinks and other foods and beverages.
Potassium benzoate is used as an effective preservative since it thwarts the growth of certain bacteria, mold and yeast. In its liquefied state, it breaks up into its two distinct parts; the benzoate salt and the electrolyte potassium.
Potassium is tremendously essential for a number of biological processes; this includes the contraction of muscles associated with the heartbeat. As an essential mineral, potassium is required for the proper function of your cells, organs and tissues. In addition to calcium, magnesium and sodium, potassium serves as an electrolyte. This is due to its capacity to spread electrical pulses and signals throughout the nervous system. Apart from its significance in sustaining the right heart rhythm, potassium is required for smooth muscle contraction as well.
This is essential for the function and health of the digestive system.
The chemical formula of Potassium Benzoate is C7H5KO2. In its raw form, it looks like a white crystalline powder. However, some companies will supply a liquid form for use in the food industry.

Formulation or re-packing
Potassium benzoate is used in the following products: coating products, inks and toners, pH regulators and water treatment products and polymers.
Release to the environment of Potassium benzoate can occur from industrial use: formulation of mixtures.

Uses at industrial sites
Potassium benzoate is used in the following products: pharmaceuticals, polymers, oil and gas exploration or production products, coating products, explosives and inks and toners.
Potassium benzoate is used in the following areas: mining, printing and recorded media reproduction and building & construction work.
Potassium benzoate is used for the manufacture of: chemicals and pulp, paper and paper products.
Release to the environment of Potassium benzoate can occur from industrial use: as processing aid, as processing aid, in the production of articles and in processing aids at industrial sites.

Properties
Chemical formula: C7H5KO2
Molar mass: 160.213 g·mol−1
Appearance: White hygroscopic solid
Odor: Odorless
Density: 1.5 g/cm3
Melting point: >300 °C (572 °F; 573 K)
Solubility in water:
69.87 g/100 mL (17.5 °C)
73.83 g/100 mL (25 °C)
79 g/100 mL (33.3 °C)
88.33 g/100 mL (50 °C)
Solubility in other solvents:
Soluble in ethanol
Slightly soluble in methanol
Insoluble in ether

In Other Industries
Potassium Benzoate E212 is widely used as additive in various other industries.
Potassium benzoate is the inactive salt of benzoic acid.
Potassium benzoate is soluble in water where it converts to benzoic acid, its active form, at a low pH. Benzoic acid is very pH dependent. While it shows some activity up to pH 6 (about 1.55%), it is most active at pH 3 (94%).

As benzoic acid, it is considered to be primarily an anti-fungal, but it shows some activity against bacteria.
Potassium benzoate is poor against pseudomonads.
Benzoic acid is inactivated by non-ionics and by raising the pH.

Potassium Benzoate Specification:
Item: Specification
Appearance: white granule or crystalline odorless powder
Purity (on dry base): ≥99.0%
Moisture: ≤1.5%
Acidity and Alkalinity: ≤0.2 ml
Water solution test: clear
Solution colour: Y6
Chlorides: ≤300 mg/Kg
Heavy metals (As Pb): ≤10 mg/Kg
Arsenic: ≤2 mg/Kg

Manufacture
Release to the environment of Potassium benzoate can occur from industrial use: manufacturing of the substance.

White, odorless or nearly odorless, granules or crystalline powder, soluble in water.
Potassium benzoate is an alternative to Potassium benzoate and is used as a food preservative, by preventing the growth of bacteria, yeast and fungi.
Potassium benzoate can be used in soft drinks, salad dressing, sauces, alcohol beverages and other condiments and snacks.

Potassium Benzoate is a white crystal or granular and is soluble in water.
Can be used as an alternative to Potassium benzoate.

Potassium benzoate is used as a preservative to prevent food from molding.
Potassium benzoate helps keep our products shelf-stable for at least two years from the date of purchase and is used in concentrations of less than 0.5% by volume.
While Potassium benzoate is considered safe, scientists have shown that negative side effects occur when it's mixed with ascorbic acid (vitamin C).

Uses of Potassium benzoate
Food. In the food industry, Potassium benzoate is used to prevent spoilage from harmful bacteria, yeasts, and molds.
Potassium benzoate also helps maintain freshness in food by helping to slow or prevent changes in color, flavor, PH, and texture.
Other foods that commonly include Potassium benzoate include:
-Salad dressings
-Pickles
-Sauces
-Condiments
-Fruit juices
-Wines
-Snack foods
-Drink.

Personal care products.
Potassium benzoate can be used as an anti-corrosive and preservative in a large variety of personal care products such as:
-Mouthwash
-Hair products
-Sunscreen
-Moisturizers
-Serums
-Baby wipes

In Beverage
Potassium Benzoate E212 can be used as preservative in beverage such as in soft drinks, diet coke, sodas, condensed juice and other acidic drink to inhibit microbial.

In Health and Personal care
Potassium Benzoate E212 used in a wide variety of cosmetics and personal care products, such as in baby products, bath products, soaps and detergents, eye makeup, blushers, cleansing products, make up products, as well as hair, nail and skin care products.

In Agriculture/Animal Feed/Poultry
Potassium Benzoate E212 can be used as preservative in Agriculture/Animal Feed/Poultry feed.

IUPAC NAMES:
Benzoic acid, potassium salt (1:1)
Potassium benzoate
potassium benzoate
potassium benzoate
potassium;benzoate
POTASSIUM BENZOATE
benzoic acid potassium
PotassiumBenzoateC7H5KO2
Benzoicacidpotassiumsaltanhydrous
Kaliumbenzoat,wasserfrei
BENZOIC ACID POTASSIUM SALT
POTASSIUM BENZOATE REAGENT
POTASSIUMBENZOATE,CRYSTAL,REAGENT
POTASSIUMBENZOATE,FCC
POTASSIUMBENZOATE,NF
Kaliumbenzoat
Piatassium benzoate
Potassium Benzoate, Anhydrous
Potassium Benzoate (1 g)
PotassiuM benzoate, >=99.0% (NT)
POTASSIUM BENZOATE, REAGENTPOTASSIUM BENZOATE, REAGENTPOTASSIUM BENZOATE, REAGENTPOTASSIUM BENZOATE, REAGENT
Potassium benzoate Joyce
Potassium benzoate Vetec(TM) reagent grade, 98%
Benzoic acid, potassium salt (1:1)
POTASSIUM BITARTRATE
cas no 868-14-4 Potassium hydrogen tartrate; [R-(R*,R*)]-2,3-dihydroxy-Butanedioic acid, monopotassium salt; Cream; cream of tartar; L(+)-Potassium hydrogen tartrate; Monopotassium tartrate; Potassium acid tartrate; Potassium Hydrogentartrate; Tartaric acid, monopotassium salt;
POTASSIUM BORATE
potassıum carbonate; Potash; Salt of Tartar; Carbonic acid, Dipotassium salt; Potassium carbonate (2:1); Kaliumcarbonat; Pearl ash; cas no :584-08-7
potassıum carbonate
SYNONYMS Potash; Salt of Tartar; Carbonic acid, Dipotassium salt; Potassium carbonate (2:1); Kaliumcarbonat; Pearl ash; CAS NO. 584-08-7
POTASSIUM CHLORATE
POTASSIUM CHLORATE Potassium chlorate Potassium chlorate The structure of the ions in potassium chlorate The crystal structure of potassium chlorate Potassium chlorate crystals Names Other names Potassium chlorate(V), Potcrate Identifiers CAS Number 3811-04-9 check 3D model (JSmol) Interactive image ChemSpider 18512 check ECHA InfoCard 100.021.173 EC Number 223-289-7 PubChem CID 6426889 RTECS number FO0350000 UNII H35KS68EE7 check UN number 1485 CompTox Dashboard (EPA) DTXSID6047448 Properties Chemical formula KClO3 Molar mass 122.55 g mol−1 Appearance white crystals or powder Density 2.32 g/cm3 Melting point 356 °C (673 °F; 629 K) Boiling point 400 °C (752 °F; 673 K) decomposes[1] Solubility in water 3.13 g/100 mL (0 °C) 4.46 g/100 mL (10 °C) 8.15 g/100 mL (25 °C) 13.21 g/100 mL (40 °C) 53.51 g/100 mL (100 °C) 183 g/100 g (190 °C) 2930 g/100 g (330 °C)[2] Solubility soluble in glycerol negligible in acetone and liquid ammonia[1] Solubility in glycerol 1 g/100 g (20 °C)[1] Magnetic susceptibility (χ) −42.8·10−6 cm3/mol Refractive index (nD) 1.40835 Structure Crystal structure monoclinic Thermochemistry Heat capacity (C) 100.25 J/mol·K[1] Std molar entropy (So298) 142.97 J/mol·K[3][1] Std enthalpy of formation (ΔfH⦵298) −391.2 kJ/mol[3][1] Gibbs free energy (ΔfG˚) -289.9 kJ/mol[1] Hazards Safety data sheet ICSC 0548 GHS pictograms GHS03: OxidizingGHS07: HarmfulGHS09: Environmental hazard[4] GHS Signal word Danger GHS hazard statements H271, H302, H332, H411[4] GHS precautionary statements P220, P273[4] NFPA 704 (fire diamond) NFPA 704 four-colored diamond 023OX Lethal dose or concentration (LD, LC): LD50 (median dose) 1870 mg/kg (oral, rat)[5] Related compounds Other anions Potassium bromate Potassium iodate Potassium nitrate Other cations Ammonium chlorate Sodium chlorate Barium chlorate Related compounds Potassium chloride Potassium hypochlorite Potassium chlorite Potassium perchlorate Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa). check verify (what is check☒ ?) Infobox references Potassium chlorate is a compound containing potassium, chlorine and oxygen, with the molecular formula KClO3. In its pure form, it is a white crystalline substance. It is the most common chlorate in industrial use. It is used, as an oxidizing agent, to prepare oxygen, as a disinfectant, in safety matches, in explosives and fireworks, in cultivation, forcing the blossoming stage of the longan tree, causing it to produce fruit in warmer climates.[6] Production On the industrial scale, potassium chlorate is produced by the Liebig process: passing chlorine into hot calcium hydroxide, subsequently adding potassium chloride:[7] 6 Ca(OH)2 + 6 Cl2 → Ca(ClO3)2 + 5 CaCl2 + 6 H2O Ca(ClO3)2 + 2 KCl → 2 KClO3 + CaCl2 The electrolysis of KCl in aqueous solution is also used sometimes, in which elemental chlorine formed at the anode react with KOH in situ. The low solubility of KClO3 in water causes the salt to conveniently isolate itself from the reaction mixture by simply precipitating out of solution. Potassium chlorate can be produced in small amounts by disproportionation in a sodium hypochlorite solution followed by metathesis reaction with potassium chloride:[8] 3 NaOCl(aq) → 2 NaCl(s) + NaClO3(aq) KCl(aq) + NaClO3(aq) → NaCl(aq) + KClO3(s) It can also be produced by passing chlorine gas into a hot solution of caustic potash:[9] 3 Cl2(g) + 6 KOH(aq) → KClO3(aq) + 5 KCl(aq) + 3 H2O(l) Uses Potassium chlorate burning sugar Potassium chlorate was one key ingredient in early firearms percussion caps (primers). It continues in that application, where not supplanted by potassium perchlorate. Chlorate-based propellants are more efficient than traditional gunpowder and are less susceptible to damage by water. However, they can be extremely unstable in the presence of sulfur or phosphorus and are much more expensive. Chlorate propellants must be used only in equipment designed for them; failure to follow this precaution is a common source of accidents. Potassium chlorate, often in combination with silver fulminate, is used in trick noise-makers known as "crackers", "snappers", "pop-its", or "bang-snaps", a popular type of novelty firework. Another application of potassium chlorate is as the oxidizer in a smoke composition such as that used in smoke grenades. Since 2005, a cartridge with potassium chlorate mixed with lactose and rosin is used for generating the white smoke signaling the election of new pope by a papal conclave.[10] Potassium chlorate is often used in high school and college laboratories to generate oxygen gas.[citation needed] It is a far cheaper source than a pressurized or cryogenic oxygen tank. Potassium chlorate readily decomposes if heated while in contact with a catalyst, typically manganese(IV) dioxide (MnO2). Thus, it may be simply placed in a test tube and heated over a burner. If the test tube is equipped with a one-holed stopper and hose, warm oxygen can be drawn off. The reaction is as follows: 2 KClO3(s) → 3 O2(g) + 2 KCl(s) Heating it in the absence of a catalyst converts it into potassium perchlorate:[9] 4 KClO3 → 3 KClO4 + KCl With further heating, potassium perchlorate decomposes to potassium chloride and oxygen: KClO4 → KCl + 2 O2 The safe performance of this reaction requires very pure reagents and careful temperature control. Molten potassium chlorate is an extremely powerful oxidizer and spontaneously reacts with many common materials such as sugar. Explosions have resulted from liquid chlorates spattering into the latex or PVC tubes of oxygen generators, as well as from contact between chlorates and hydrocarbon sealing greases. Impurities in potassium chlorate itself can also cause problems. When working with a new batch of potassium chlorate, it is advisable to take a small sample (~1 gram) and heat it strongly on an open glass plate. Contamination may cause this small quantity to explode, indicating that the chlorate should be discarded. Potassium chlorate is used in chemical oxygen generators (also called chlorate candles or oxygen candles), employed as oxygen-supply systems of e.g. aircraft, space stations, and submarines, and has been responsible for at least one plane crash. A fire on the space station Mir was also traced to this substance. The decomposition of potassium chlorate was also used to provide the oxygen supply for limelights. Potassium chlorate is used also as a pesticide. In Finland it was sold under trade name Fegabit. Potassium chlorate can react with sulfuric acid to form a highly reactive solution of chloric acid and potassium sulfate: 2 KClO3 + H2SO4 → 2 HClO3 + K2SO4 The solution so produced is sufficiently reactive that it spontaneously ignites if combustible material (sugar, paper, etc.) is present. In schools, molten potassium chlorate is used in the dramatic screaming jelly babies, Gummy bear, Haribo, and Trolli candy demonstration where the candy is dropped into the molten salt. In chemical labs it is used to oxidize HCl and release small amounts of gaseous chlorine. Insurgents in Afghanistan also use potassium chlorate extensively as a key component in the production of improvised explosive devices. When significant effort was made to reduce the availability of ammonium nitrate fertilizer in Afghanistan, IED makers started using potassium chlorate as a cheap and effective alternative. In 2013, 60% of IEDs in Afghanistan used potassium chlorate, making it the most common ingredient used in IEDs.[11] Potassium chlorate was also the main ingredient in the car bomb used in 2002 Bali bombings that killed 202 people. Safety Potassium chlorate should be handled with care. It reacts vigorously, and in some cases spontaneously ignites or explodes, when mixed with many combustible materials. It burns vigorously in combination with virtually any combustible material, even those normally only slightly flammable (including ordinary dust and lint). Mixtures of potassium chlorate and a fuel can ignite by contact with sulfuric acid, so it should be kept away from this reagent. Sulfur should be avoided in pyrotechnic compositions containing potassium chlorate, as these mixtures are prone to spontaneous deflagration. Most sulfur contains trace quantities of sulfur-containing acids, and these can cause spontaneous ignition - "Flowers of sulfur" or "sublimed sulfur", despite the overall high purity, contains significant amounts of sulfur acids. Also, mixtures of potassium chlorate with any compound with ignition promoting properties (ex. antimony(III) sulfide) are very dangerous to prepare, as they are extremely shock sensitive. Molecular Weight of Potassium chlorate 122.55 g/mol Computed by PubChem 2.1 (PubChem release 2019.06.18) Hydrogen Bond Donor Count of Potassium chlorate 0 Computed by Cactvs 3.4.6.11 (PubChem release 2019.06.18) Hydrogen Bond Acceptor Count of Potassium chlorate 3 Computed by Cactvs 3.4.6.11 (PubChem release 2019.06.18) Rotatable Bond Count of Potassium chlorate 0 Computed by Cactvs 3.4.6.11 (PubChem release 2019.06.18) Exact Mass of Potassium chlorate 121.917303 g/mol Computed by PubChem 2.1 (PubChem release 2019.06.18) Monoisotopic Mass of Potassium chlorate 121.917303 g/mol Computed by PubChem 2.1 (PubChem release 2019.06.18) Topological Polar Surface Area of Potassium chlorate 57.2 Ų Computed by Cactvs 3.4.6.11 (PubChem release 2019.06.18) Heavy Atom Count of Potassium chlorate 5 Computed by PubChem Formal Charge of Potassium chlorate 0 Computed by PubChem Complexity of Potassium chlorate 49.8 Computed by Cactvs 3.4.6.11 (PubChem release 2019.06.18) Isotope Atom Count of Potassium chlorate 0 Computed by PubChem Defined Atom Stereocenter Count of Potassium chlorate 0 Computed by PubChem Undefined Atom Stereocenter Count of Potassium chlorate 0 Computed by PubChem Defined Bond Stereocenter Count of Potassium chlorate 0 Computed by PubChem Undefined Bond Stereocenter Count of Potassium chlorate 0 Computed by PubChem Covalently-Bonded Unit Count of Potassium chlorate 2 Computed by PubChem Compound of Potassium chlorate Is Canonicalized Yes Physical Description Potassium chlorate appears as a white crystalline solid. Forms a very flammable mixture with combustible materials. Mixture may be explosive if combustible material is very finely divided. Mixture may be ignited by friction. Contact with strong sulfuric acid may cause fires or explosions. May spontaneously decompose and ignite when mixed with ammonium salts. May explode under prolonged exposure to heat or fire. Used to make matches, paper, explosives, and many other uses. Potassium chlorate, aqueous solution appears as a colorless liquid. Denser than water. Contact may irritate skin, eyes and mucous membranes. May be toxic by ingestion. Used to make other chemicals. Ignites organic materials upon contact Product Information CAS number of Product Information 3811-04-9 EC index number of Product Information 017-004-00-3 EC number of Product Information 223-289-7 Grade of Product Information ACS,Reag. Ph Eur Hill Formula of Product Information ClKO₃ Chemical formula of Product Information KClO₃ Molar Mass of Product Information 122.55 g/mol HS Code of Product Information 2829 19 00 3811-04-9 EC index number 017-004-00-3 EC number of Product Information 223-289-7 Grade of Product Information ACS,Reag. Ph Eur Hill Formula of Product Information ClKO₃ Chemical formula of Product Information KClO₃ Molar Mass of Product Information 122.55 g/mol Potassium chlorate (KClO3) is a strong oxidizing agent that has a wide variety of uses. It is or has been a component of explosives, fireworks, safety matches, and disinfectants. As a high school or college chemistry student, you may have used it to generate oxygen in the lab. Because it is a strong oxidizer, KClO3 must be kept from contacting organic matter; reduced inorganic materials such as elemental sulfur, phosphorus; and iodine; and concentrated acids. The use of KClO3 in matches dates back to 1826, when English chemist John Walker combined it with antimony(III) sulfide, gum, and starch. When formed into matches, the mixture sometimes (but not always) ignited when struck on sandpaper. Later on, white phosphorus replaced antimony sulfide to make matches more reliable. Eventually, the toxic white phosphorus was superseded by the red allotrope. Modern safety matches contain no phosphorus; but red phosphorus is embedded in the rough surfaces of matchboxes. Upon striking, the phosphorus ignites, liberating oxygen from the match’s KClO3, which in turn ignites combustible substances (e.g., sulfur) in the matchhead.
POTASSIUM CHLORIDE
CAS NO:7447-40-7
EC NO:231-211-8
E number:E508

Potassium is a mineral that is found in many foods and is needed for several functions of your body, especially the beating of your heart.
Potassium chloride is used to prevent or to treat low blood levels of potassium (hypokalemia).
Potassium chloride (KCl, or potassium salt) is a metal halide salt composed of potassium and chlorine.
Potassium chloride is odorless and has a white or colorless vitreous crystal appearance.
The solid dissolves readily in water, and Potassium chlorides solutions have a salt-like taste.

Potassium chloride can be obtained from ancient dried lake deposits.
KCl is used as a fertilizer, in medicine, in scientific applications, and in food processing, where Potassium chloride may be known as E number additive E508.
Potassium chloride occurs naturally as the mineral sylvite, and in combination with sodium chloride as sylvinite.
The majority of the potassium chloride produced is used for making fertilizer, called potash, since the growth of many plants is limited by potassium availability.
Potassium chloride sold as fertilizer is known as muriate of potash (MOP).
The vast majority of potash fertilizer worldwide is sold as MOP.

Medical use of POTASSIUM CHLORIDE
Main article: Potassium chloride (medical use)
Potassium is vital in the human body, and potassium chloride by mouth is the common means to treat low blood potassium, although Potassium chloride can also be given intravenously.
Potassium chloride is on the World Health Organization's List of Essential Medicines.
Overdose causes hyperkalemia which can disrupt cell signaling to the extent that the heart will stop, reversibly in the case of some open heart surgeries.

Culinary use of POTASSIUM CHLORIDE
Potassium chloride can be used as a salt substitute for food, but due to Potassium chlorides weak, bitter, unsalty flavor, Potassium chloride is often mixed with ordinary table salt (sodium chloride) to improve the taste to form low sodium salt.
The addition of 1 ppm of thaumatin considerably reduces this bitterness.
Complaints of bitterness or a chemical or metallic taste are also reported with potassium chloride used in food.

Industrial
As a chemical feedstock, Potassium chloride is used for the manufacture of potassium hydroxide and potassium metal.
Potassium chloride is also used in medicine, lethal injections, scientific applications, food processing, soaps, and as a sodium-free substitute for table salt for people concerned about the health effects of sodium.

Potassium chloride is used as a supplement in animal feed to boost the potassium level in the feed.
As an added benefit, Potassium chloride is known to increase milk production.

Potassium chloride is sometimes used in solution as a completion fluid in petroleum and natural gas operations, as well as being an alternative to sodium chloride in household water softener units.

Glass manufacturers use granular potash as a flux, lowering the temperature at which a mixture melts.
Because potash imparts excellent clarity to glass, Potassium chloride is commonly used in eyeglasses, glassware, televisions, and computer monitors.


Potassium chloride is useful as a beta radiation source for calibration of radiation monitoring equipment, because natural potassium contains 0.0118% of the isotope 40K.
One kilogram of Potassium chloride yields 16350 becquerels of radiation, consisting of 89.28% beta and 10.72% gamma, with 1.46083 MeV.
In order to use off-the-shelf materials, Potassium chloride needs to be crystallized sequentially, using controlled temperature, in order to extract Potassium chloride, which is the subject of ongoing research.
Potassium chloride also emits a relatively low level of 511 keV gamma rays from positron annihilation, which can be used to calibrate medical scanners.


Potassium chloride is used in some de-icing products designed to be safer for pets and plants, though these are inferior in melting quality to calcium chloride [lowest usable temperature 12 °F (−11 °C) v. −25 °F (−32 °C)]. It is also used in various brands of bottled water.
Potassium chloride was once used as a fire extinguishing agent, used in portable and wheeled fire extinguishers.
Known as Super-K dry chemical, it was more effective than sodium bicarbonate-based dry chemicals and was compatible with protein foam.
This agent fell out of favor with the introduction of potassium bicarbonate (Purple-K) dry chemical in the late 1960s, which was much less corrosive, as well as more effective.
Potassium chloride is rated for B and C fires.

Along with sodium chloride and lithium chloride, potassium chloride is used as a flux for the gas welding of aluminium.

Potassium chloride is also an optical crystal with a wide transmission range from 210 nm to 20 µm. While cheap, KCl crystals are hygroscopic.
This limits Potassium chlorides application to protected environments or short-term uses such as prototyping. Exposed to free air, KCl optics will "rot".
Whereas KCl components were formerly used for infrared optics, Potassium chloride has been entirely replaced by much tougher crystals such as zinc selenide.

Chemical properties
Solubility
Potassium chloride is soluble in a variety of polar solvents.

Solutions of Potassium chloride are common standards, for example for calibration of the electrical conductivity of (ionic) solutions, since KCl solutions are stable, allowing for reproducible measurements.
In aqueous solution, Potassium chloride is essentially fully ionized into solvated K+ and Cl– ions.

Redox and the conversion to potassium metal
Although potassium is more electropositive than sodium, KCl can be reduced to the metal by reaction with metallic sodium at 850 °C because the more volatile potassium can be removed by distillation (see Le Chatelier's principle):

KCl(l) + Na(l) ⇌ NaCl(l) + K(g)
This method is the main method for producing metallic potassium.
Electrolysis (used for sodium) fails because of the high solubility of potassium in molten KCl.

Physical properties
Potassium chloride adopts a face-centered cubic structure.
Potassium chlorides lattice constant is roughly 6.3 Å. Crystals cleave easily in three directions.

Some other properties are
Transmission range: 210 nm to 20 µm
Transmittivity = 92% at 450 nm and rises linearly to 94% at 16 µm
Refractive index = 1.456 at 10 µm
Reflection loss = 6.8% at 10 µm (two surfaces)
dN/dT (expansion coefficient)= −33.2×10−6/°C
dL/dT (refractive index gradient)= 40×10−6/°C
Thermal conductivity = 0.036 W/(cm·K)
Damage threshold (Newman and Novak): 4 GW/cm2 or 2 J/cm2 (0.5 or 1 ns pulse rate); 4.2 J/cm2 (1.7 ns pulse rate Kovalev and Faizullov)
As with other compounds containing potassium, KCl in powdered form gives a lilac flame.

Potassium chloride is extracted from minerals sylvite, carnallite, and potash.
Potassium chloride is also extracted from salt water and can be manufactured by crystallization from solution, flotation or electrostatic separation from suitable minerals.
Potassium chloride is a by-product of the production of nitric acid from potassium nitrate and hydrochloric acid.

The vast majority of potassium chloride is produced as agricultural and industrial grade potash in Saskatchewan, Canada, as well as Russia and Belarus.
Saskatchewan alone accounted for over 25% of the world's potash production in 2017.

Laboratory methods
Potassium chloride is inexpensively available and is rarely prepared intentionally in the laboratory.
Potassium chloride can be generated by treating potassium hydroxide (or other potassium bases) with hydrochloric acid:

KOH + HCl → KCl + H2O
This conversion is an acid-base neutralization reaction. The resulting salt can then be purified by recrystallization.
Another method would be to allow potassium to burn in the presence of chlorine gas, also a very exothermic reaction:
2 K + Cl2 → 2 KCl


Properties
Chemical formula KCl
Molar mass 74.555 g·mol−1
Appearance white crystalline solid
Odor odorless
Density 1.984 g/cm3
Melting point 770 °C (1,420 °F; 1,040 K)
Boiling point 1,420 °C (2,590 °F; 1,690 K)
Solubility in water
277.7 g/L (0 °C)
339.7 g/L (20 °C)
540.2 g/L (100 °C)
Solubility Soluble in glycerol, alkalies
Slightly soluble in alcohol Insoluble in ether
Solubility in ethanol 0.00288 g/L (25 °C)
Acidity (pKa) ~7
Magnetic susceptibility (χ) −39.0·10−6 cm3/mol
Refractive index (nD) 1.4902 (589 nm)

Potassium Chloride is a metal halide composed of potassium and chloride.
Potassium maintains intracellular tonicity, is required for nerve conduction, cardiac, skeletal and smooth muscle contraction, production of energy, the synthesis of nucleic acids, maintenance of blood pressure and normal renal function.
This agent has potential antihypertensive effects and when taken as a nutritional supplement may prevent hypokalemia.
Potassium chloride appears as white colorless cubic crystals.
Strong saline taste.
Potassium chloride is a metal chloride salt with a K(+) counterion.
Potassium chloride has a role as a fertilizer.
Potassium chloride is a potassium salt and an inorganic chloride.

Household & Commercial/Institutional Products
Information on 264 consumer products that contain Potassium chloride in the following categories is provided:
• Auto Products
• Inside the Home
• Landscaping/Yard
• Personal Care
• Pesticides
• Pet Care

Industry Uses of POTASSIUM CHLORIDE
Agricultural chemicals (non-pesticidal)
Intermediates
Laboratory chemicals
Metal Feed Material
Plating agents and surface treating agents
Processing aids, not otherwise listed
Processing aids, specific to petroleum production

Consumer Uses of POTASSIUM CHLORIDE
Agricultural products (non-pesticidal)
Air care products
Anti-freeze and de-icing products
Building/construction materials not covered elsewhere
Electrical and electronic products
Food processing
Laboratory Use
Metal products not covered elsewhere
Non-TSCA use
Paints and coatings
Paper products
Plastic and rubber products not covered elsewhere

Industry Processing Sectors
Agriculture, forestry, fishing and hunting
All other basic inorganic chemical manufacturing
Fabricated metal product manufacturing
Miscellaneous manufacturing
Oil and gas drilling, extraction, and support activities
Pesticide, fertilizer, and other agricultural chemical manufacturing
Pharmaceutical and medicine manufacturing
Primary metal manufacturing
Services

CAS number 7447-40-7
EC number 231-211-8
Grade ACS,ISO,Reag. Ph Eur
Hill Formula ClK
Chemical formula KCl
Molar Mass 74.56 g/mol

Boiling point 1413 °C (1013 hPa)
Density 1.98 g/cm3 (20.0 °C)
Melting Point 770 °C
pH value 5.5 - 8.5 (50.0 g/l, H₂O, 20.0 °C)
Bulk density 1000 kg/m3
Solubility 347 g/l

What is potassium chloride, and how does Potassium chloride work (mechanism of action)?
Potassium preparations are used for supplementing potassium in order to treat or prevent low potassium levels in the blood (hypokalemia).
Potassium is a major mineral (electrolyte) that is important for the function of every cell in the body.
For example, Potassium chloride is important in nerve conduction, muscle contraction, and kidney function.
Normal daily dietary intake of potassium is 40-150 mEq. Potassium deficiency occurs when potassium loss exceeds intake.
Potassium depletion may be caused by excessive vomiting or diarrhea, diabetic ketoacidosis, diuretics (for example, furosemide [Lasix]), starvation, and rare disorders of the adrenal glands.

Potassium chloride is a medicine used to prevent or treat low potassium levels in the body.
Potassium is a mineral that your body needs for proper functioning of the heart, muscles, kidneys, nerves, and digestive system.
Certain diseases, illnesses, and drugs can remove potassium from the body.
Potassium chloride works by replacing lost potassium and preventing a deficiency.

Foods with potassium chloride
According to Caroline West Passerrello, MS, RDN, LDN, a spokesperson for the Academy of Nutrition and Dietetics, potassium chloride can be found not only in salt substitutes, but also in these foods:

snack bars
soups
potato chips
cereals
frozen entrees


What is potassium chloride?
Answer: Potassium chloride is a common, naturally occurring mineral.
Potassium chloride is typically extracted from the ground via solution potash mining; that is, water is injected into the ground where potassium chloride deposits exist, the water dissolves the potassium chloride and the saturated brine is pumped back to the surface and the water is evaporated leaving the potassium chloride behind.
Potassium chloride may also be extracted from the sea, in a similar process that is used to produce some sea salts.
Potassium chloride is one of the minerals present in sea water that can be extracted through traditional solar evaporation.


Is potassium chloride safe to eat?
Answer: Yes. Potassium chloride has been affirmed as Generally Recognized As Safe (GRAS) by the U.S. Food and Drug Administration (FDA) as a multipurpose ingredient in foods with no limitation other than current good manufacturing practice (cGMP), which means food manufacturers can use it at levels necessary to achieve its intended technological effect in a food product.


Is potassium chloride harmful to me?
Answer: The safety of oral consumption of potassium chloride is supported by its long history of use in foods, and its regulatory acceptance for food use in the U.S. and by numerous international scientific bodies and regulatory authorities.
The acceptable daily intake (ADI) for chloride salts (including potassium chloride) is “not limited,” which is indicative of their very low toxicity to humans.


What is potassium chloride used for in food?
Answer: According to the GRAS-affirmed uses of potassium chloride, it is used as a flavor enhancer, flavoring agent, nutrient supplement, pH control agent, and stabilizer or thickener.
However, potassium chloride is used for two main purposes in food products.
The first is to provide potassium enrichment to foods.
The second is as a salt replacer to reduce the sodium content in foods.
Like salt (aka sodium chloride), potassium chloride provides a salty flavor and can also often play other functional roles (e.g. microbial management, protein modification, flavor enhancement) that impacts the taste, texture, and shelf life of food products.


What are some food products that contain potassium chloride?
Answer: Potassium chloride is widely used as a salt replacer or to provide potassium enrichment in many different food products including:


Baby formulas
Cereals
Frozen entrees
Meats
Snack foods, such as chips or crisps
Sports/electrolyte drinks
Soups
Sauces
Snack/meal bars

What are other non-food uses of potassium chloride?
Answer: By far the largest use for potassium chloride is as a fertilizer.
Like humans and many other living organisms, plants also need potassium to flourish. Fertilizer/industrial grade potassium chloride is commonly referred to as potash.
Potassium chloride is also used in the pharmaceutical industry in dialysis fluids, among other things.
Potassium chloride in dialysis fluid helps keep the body’s electrolytes in balance.

Is there another way to reduce salt/sodium without using potassium chloride?
Answer: For home cooking, one could use herbs and seasonings to provide flavor to foods.
For commercially prepared items, flavors and herbs may provide or enhance the taste of foods; but, a food manufacturer would still need to consider the other basic functional roles of salt (e.g., texture, microbial management) in the food product.
Depending on the functional role, one may be able use other non-sodium substitutes, e.g. magnesium chloride and calcium chloride; however, they can sometimes create “off” flavors.


Agricultural use POTASSIUM CHLORIDE
Potassium chloride is the most widely applied K fertilizer because of its relatively low cost and because it includes more K than most other sources: 50 to 52 percent K (60 to 63 percent K₂O) and 45 to 47 percent Cl⁻.
More than 90 percent of global potash production goes into plant nutrition.
Farmers spread KCL onto the soil surface prior to tillage and planting.
Potassium chloride may also be applied in a concentrated band near the seed. Since dissolving fertilizer will increase the soluble salt concentration, banded KCl is placed to the side of the seed to avoid damaging the germinating plant.
Potassium chloride rapidly dissolves in soil water.
The K⁺ will be retained on the negatively charged cation exchange sites of clay and organic matter.
The Cl⁻ portion will readily move with the water.

An especially pure grade of KCl can be dissolved for fluid fertilizers or applied through irrigation systems.
Potassium chloride is found in various shades and particle sizes.
Potassium chloride is primarily used as a source of K nutrition.
However, there are regions where plants respond favorably to application of Cl⁻.
Potassium chloride is usually the preferred material to meet this need.
There are no significant impacts on water or air associated with normal application rates of KCl.
Elevated salt concentrations surrounding the dissolving fertilizer may be the most important factor to consider.


Non-agricultural use POTASSIUM CHLORIDE
Potassium is essential for human and animal health.

Potassium chloride can be used as a salt substitute for individuals on a restricted salt (sodium chloride) diet.
Potassium chloride is used as a deicing agent and has a fertilizing value after the ice melts.
Potassium chloride is also used in water softeners to replace calcium in water.
Production

Deeply buried potash deposits exist throughout the world.
The dominant mineral is sylvite mixed with halite (sodium chloride), which forms a mixed mineral called sylvinite.
Most K minerals are harvested from ancient marine deposits deep beneath the Earth’s surface.
They are then transported to a processing facility where the ore is crushed and the K salts are separated from the sodium salts.
The color of Potassium chloride can vary from red to white, depending on the source of the sylvinite ore.
The reddish tint comes from trace amounts of iron oxide.
There are no agronomic differences between the red and white forms of Potassium chloride.

Some Potassium chloride is produced by injecting hot water deep into the ground to dissolve the soluble sylvinite mineral and then pumping the brine back to the surface, where the water evaporates.
Solar evaporation is used to recover valuable potash salts from brine water in Utah’s Dead Sea and Great Salt Lake, for example.

Potassium chloride is the most widely used potassium source worldwide, and due to its continuous use, the accumulation of its salts in the soil and in plants is becoming more common.
Excess available ions can cause a series of physiological disturbances in organisms and can become a biocide in the soil.
The objective of this study was to evaluate the effects of the application of KCl and banana crop residues on soil chloride content, microbial activity, and soil ammonification.

About this substance
Helpful information
Potassium chloride is registered under the REACH Regulation and is manufactured in and / or imported to the European Economic Area, at ≥ 10 000 to < 100 000 tonnes per annum.
Potassium chloride is used by consumers, in articles, by professional workers (widespread uses), in formulation or re-packing, at industrial sites and in manufacturing.

Consumer Uses POTASSIUM CHLORIDE
Potassium chloride is used in the following products: laboratory chemicals.
Potassium chloride to the environment of this substance is likely to occur from: indoor use as reactive substance and indoor use in close systems with minimal release (e.g. cooling liquids in refrigerators, oil-based electric heaters).

Article service life
Release to the environment of this substance can occur from industrial use: in processing aids at industrial sites.
Other release to the environment of this substance is likely to occur from: indoor use in long-life materials with low release rate (e.g. flooring, furniture, toys, construction materials, curtains, foot-wear, leather products, paper and cardboard products, electronic equipment).
This substance can be found in products with material based on: plastic (e.g. food packaging and storage, toys, mobile phones) and paper (e.g. tissues, feminine hygiene products, nappies, books, magazines, wallpaper).

Widespread uses by professional workers
Potassium chloride is used in the following products: laboratory chemicals, pH regulators and water treatment products and fertilisers.
Potassium chloride is used in the following areas: scientific research and development, health services and agriculture, forestry and fishing.
Potassium chloride is used for the manufacture of: chemicals.
Release to the environment of this substance can occur from industrial use: formulation of mixtures, formulation in materials, in processing aids at industrial sites and in the production of articles.
Potassium chloride to the environment of this substance is likely to occur from: indoor use (e.g. machine wash liquids/detergents, automotive care products, paints and coating or adhesives, fragrances and air fresheners) and outdoor use.

Formulation or re-packing
Potassium chloride is used in the following products: pH regulators and water treatment products, laboratory chemicals, metal surface treatment products, non-metal-surface treatment products and paper chemicals and dyes.
Release to the environment of this substance can occur from industrial use: formulation of mixtures, manufacturing of the substance, formulation in materials, in processing aids at industrial sites, in the production of articles, as an intermediate step in further manufacturing of another substance (use of intermediates), as processing aid, for thermoplastic manufacture, as processing aid and of substances in closed systems with minimal release.

Uses at industrial sites
Potassium chloride is used in the following products: laboratory chemicals, fertilisers and pH regulators and water treatment products.
Potassium chloride has an industrial use resulting in manufacture of another substance (use of intermediates).
Potassium chloride is used in the following areas: formulation of mixtures and/or re-packaging, health services and scientific research and development.
Potassium chloride is used for the manufacture of: chemicals and plastic products.
Release to the environment of this substance can occur from industrial use: in processing aids at industrial sites, as an intermediate step in further manufacturing of another substance (use of intermediates), as processing aid, manufacturing of the substance, in the production of articles and of substances in closed systems with minimal release.

Manufacture
Release to the environment of this substance can occur from industrial use: manufacturing of the substance, in processing aids at industrial sites, formulation of mixtures, formulation in materials, in the production of articles, as an intermediate step in further manufacturing of another substance (use of intermediates), as processing aid, for thermoplastic manufacture, as processing aid and of substances in closed systems with minimal release.

IUPAC names
Kelp salt
Kelp salt , muriate of potash
POTASSIUM CHLORIDE
Potassium Chloride
Potassium chloride
potassium chloride
Potassium chloride
potassium chloride
potassium cloride
potassium; chloride
potassium;chloride
Reaction mass of potassium and chlorine
Reaction mass of potassium chloride and sodium chloride EC: 913-353-9

Potassium Chloride (Klor-Con M, K-Tab, Klor-Con, Micro-K) is a potassium supplement used to prevent and to treat low potassium.
Potassium is important for the heart, muscles, and nerves. Too much or too little potassium in the body can cause serious problems.
Potassium chloride is more popular than comparable drugs.

Empirical formula KCl
Molar mass (M) 74,56 g/mol
Density (D) 1,98 g/cm³
Boiling point (bp) 1413 °C
Melting point (mp) 773 °C

Preparation of Potassium Chloride
Potassium chloride can be directly extracted from some minerals such as carnallite, sylvite, and potash.
This compound can also be extracted from seawater.Potassium chloride is produced as a by-product during the synthesis of nitric acid from hydrochloric acid and potassium nitrate.

In the laboratory,Potassium chloride can be prepared by reacting bases of potassium (such as potassium hydroxide) with hydrochloric acid.
The ensuing acid-base neutralization reaction will yield water and potassium chloride as the products.


Properties of Potassium Chloride
In the solid-state,Potassium chloride is readily soluble in many polar solvents, including water.
The salt is ionized into the K+ cation and the Cl– anions in these polar solvents.
Some other physical and chemical properties of potassium chloride are discussed in this subsection.

Physical Properties
The crystals of potassium chloride are made up of face-centred cubic (FCC) unit cells.
The molar mass of KCl is 74.5513 grams/mol.
Potassium chlorides density in the solid, crystalline form is 1.984 grams per cubic centimetre.
The melting and boiling points of potassium chloride are 1040 K and 1690 K respectively.
At 0oC, 20oC, and 100oC, the solubility of KCl in water corresponds to 217.1 g/L, 253.9 g/L, and 360.5 g/L respectively.
Potassium chloride is highly soluble in alcohols but not soluble in ether (organic compounds with the formula R-O-R’).

Chemical Properties
Since potassium chloride is completely ionized into K+ and Cl– ions in water, the resulting aqueous solution exhibit high values of electrical conductivity.
The reduction of potassium chloride into metallic can be achieved with the help of metallic sodium, despite the lower electropositivity of sodium when compared to potassium.
Potassium chloride is achieved by heating the KCl with metallic sodium to a temperature of 850 o
The chemical equation for this reaction is: KCl + Na ⇌ NaCl + K
Potassium chloride can be noted that when the solid form of potassium chloride is subjected to a flame test, it burns with a pale violet or a lilac-coloured flame, as is the case with most other potassium-containing compounds.

Uses of Potassium Chloride
Potassium chloride has a wide range of medical and industrial applications.
Potassium chloride is also an integral part of fertilizer production.

Potassium chloride is used in the manufacture of potash, an important form of fertilizer that enriches soils with potassium which promotes the growth of plant life.
Potassium availability is usually the key inhibitor for plant growth.
Potassium chloride, acting as a source of potassium, can increase the availability of potassium in the soil.
The potash fertilizers made from KCl (called Muriate of Potash, or MOP) make up the majority of potash fertilizers sold worldwide.
The medical treatment of low blood pressure commonly employs potassium chloride as a part of the medication.

Potassium chloride is used as a salt substitute in food where a low concentration of sodium in the salt is desired in order to reduce the risk of high blood pressure.
Potassium chloride is one of the important raw materials required in the manufacture of potassium metal.
The metal halide salt Potassium chloride is also used in the manufacture of soaps. Water softening units can involve the use of potassium chloride as an alternative to sodium chloride as well.
The use of potassium chloride as a source of beta radiation is extremely useful in calibrating radiation monitoring equipment.
The flux required in the oxy-fuel welding of aluminium consists of potassium chloride along with the chloride salts of lithium and sodium.

Potassium chloride has the potential to be used as a fire extinguishing agent was initially used in portable and wheeled fire extinguishers.
Potassium chloride was referred to as the Super-K dry chemical and was known to be more effective when compared to sodium bicarbonate-based dry chemicals for this purpose.
Furthermore, potassium chloride is known to be compatible with protein foam.
However, the use of potassium chloride for this purpose gradually reduced with the introduction of potassium bicarbonate (also referred to as Purple-K) dry chemical towards the end of the 1960s.
Purple-K was found to be far less corrosive (and more effective) than potassium chloride for this purpose.

Potassium chloride (KCI) is a white crystal or crystalline powder metal halide salt composed of potassium and chloride.
The solid odorless, white, or colorless vitreous crystals readily dissolve in water.
Potassium chlorides solutions have a salt-like taste.
The non-combustible compound is used in the manufacture of buffers, fertilizers, and explosives as well as in medicine, food processing, and scientific applications.

DESCRIPTION
Potassium chloride is a metal halide salt with the molecular formula KCI or CIK.
Potassium chlorides CAS is 7447-40-7. The white, colorless crystals are soluble in water and insoluble in ethanol.


Industrial uses of Potassium chloride include:
Agricultural chemicals (non-pesticidal)
Intermediates
Laboratory chemicals
Plating agents and surface treating agents
Processing aids, not otherwise listed
Processing aids, specific to petroleum production
Consumer uses include:

Agricultural Products (non-pesticidal)
Anti-Freeze and De-icing Products
Building/Construction Materials not covered elsewhere
Electrical and Electronic Products
Metal Products not covered elsewhere
Paints and Coatings
Water Treatment Products

Potassium chloride is produced in quantity from mined potash ores and from salt-containing surface waters.
The chemical is extracted from minerals sylvite, carnallite, and potash.
Potassium chloride is a by-product of nitric acid production from potassium nitrate and hydrochloric acid.

Potassium chloride (poe-TAS-ee-yum KLOR-ide) occurs as a white or colorless crystalline solid or powder.
Potassium chloride is odorless, but has a strong saline (salty) taste.
Potassium chloride occurs naturally in the minerals sylvite, carnallite, kainite, and sylvinite.
Potassium chloride also occurs in sea water at a concentration of about 0.076 percent (grams per milliliter of solution).
Potassium chloride is the most abundant compound of the element potassium and has the greatest number of applications of any salt of potassium.

By far the most important application of potassium chloride is in the manufacture of fertilizers.
Potassium chloride and sodium chloride is a combination mineral supplement that may be helpful in reducing tiredness, muscle cramps, or heat prostration that can occur when you sweat more than usual.
This product is often used for outdoor recreational activities performed in high heat, or indoors anywhere high temperatures can cause you to become overheated.
Potassium Chloride is an excellent water soluble crystalline Potassium source for uses compatible with chlorides..

Chloride compounds can conduct electricity when fused or dissolved in water.
Chloride materials can be decomposed by electrolysis to chlorine gas and the metal.
They are formed through various chlorination processes whereby at least one chlorine anion (Cl-) is covalently bonded to the relevant metal or cation.
Ultra high purity and proprietary formulations can be prepared.
The chloride ion controls fluid equilibrium and pH levels in metabolic systems.
They can form either inorganic or organic compounds.

Potassium Chloride is generally immediately available in most volumes.
High purity, submicron and nanopowder forms may be considered.
Potassium chloride (KCl) is a water-soluble metal salt that comprises of potassium and chlorine.
Potassium chloride can be extracted from minerals and salt water.
KCl can be used in industries such as cosmetics, food, biomedical, chemical and fertilizer.

Application
May be used for the preparation of phosphate buffered saline, and for the extraction and solubilization of proteins.

Potassium chloride naturally occurs as a white or colorless solid that has a powdery, crystalline appearance.
Potassium chlorides chemical formula is KCl, consists of one potassium (K) atom and one chlorine (Cl) atom.
An ionic compound is made of a metal element and a nonmetal element.
In potassium chloride, the metal element is potassium (K) and the nonmetal element is chlorine (Cl), so we can say that KCl is an ionic compound.
Imagine what happens when a potassium (K) atom meets a chlorine (Cl) atom.
The K atom will lose one electron and acquire a positive charge, so it will become a positive ion with a charge of +1, written as K+.
The Cl atom will gain an electron and acquire a negative charge, so it's going to become a negative ion with a charge of -1, written as Cl-.

Potassium chloride is a salt consisting of a positive ion (K+) and negative ion (Cl-).
Here, we can see that KCl consists of a positive ion (K+) and a negative ion (Cl-). Salts are ionic compounds consisting of positive and negative ions.
Because potassium chloride has ions of opposite charges, potassium chloride is classified as a salt.

Uses of Potassium Chloride
Potassium chloride has so many uses in different areas even though it tends to go unnoticed by most people! Let's take a look at some common uses of potassium chloride.

Do you have a flower garden or a vegetable garden that you maintain?
If you do, then you've probably gone to the store to buy fertilizer.
Some plants need potassium to grow. Muriate of Potash (MOP) is a type of fertilizer that's made of potassium chloride (KCl).
Potassium chloride's got around 50% potassium (K) and 46% of chlorine (Cl).

Potassium chloride is used as a fertilizer.
But what makes potassium chloride a good fertilizer?
Potassium chloride's the potassium! Potassium can be really helpful in plant growth and reproduction.
This type of fertilizer is also great for soil that has low chlorine (Cl) content.
By having just the right amount of chlorine content in the soil, the crops will be resistant to disease.

Potassium chloride can also be used as a treatment for hypokalemia.
In order for the cells in our body to function properly, our blood needs to have normal potassium levels.
There are people who suffer from potassium deficiency in the blood, a condition known as hypokalemia.
To treat this condition, potassium chloride pills are taken to balance the blood's potassium levels to a normal amount.

Potassium chloride can also be used as a food additive.
If you've ever looked at the ingredients of many foods we eat, you've probably seen potassium chloride make an appearance.
In some foods like soups, sauces, cereal, and sports drinks, Potassium chloride's used instead of salt to provide our bodies with potassium.
Potassium chloride's also used as a firming agent to give a good and consistent texture to food and to strengthen its structure.
Potassium chloride's even used as a flavor enhancer in chocolate milk, cheese, and cream.

Features
Prepared from analytical grade reagent
Convenient sealed pouches
Dissolve and use in minutes
Reproducibility from lot to lot

Product description
Potassium chloride, KCl, is generally used in laboratory routines.
Potassium chlorides use as a storage buffer for pH electrodes and as a reference solution for conductivity measurements is well established.

Applications
Multi-purpose routine laboratory reagent
Storage buffer for pH electrodes
Reference solution for conductivity


What is Potassium Chloride (KCL)?
Potassium chloride is just one of the chemical compounds.
The element potassium chloride is formed by the reaction of the element potassium and the element chlorine.
Potassium chloride has the formula KCI.
Potassium chloride is a chemical compound consisting of white crystals.
Potassium chloride is a chemical compound that is completely odorless in its pure form.
Potassium chloride boils at 1420 degrees and starts to melt at 770 degrees.


What Is Potassium Chloride (KCL) Used For?
Potassium chloride is among the most important elements for human health.
Potassium chloride is extremely important for the formation of a healthy nervous system.
Potassium fluorides also directly affect muscle health.
Potassium chloride provides the function of the muscles. Potassium chloride is also used to maintain the pH of body fluids.
Potassium chloride element is also used in electrolysis.
This element is also used in food production and fertilizer production.
Another area where potassium chloride is used is drilling activities.
Potassium chloride is preferred for drilling mud in drilling.


Definition and Usage Areas:
Potassium Chloride is a chemical compound consisting of potassium chloride, a combination of the elements potassium and chlorine.
In chemistry, Potassium chlorides symbol is shown as KCl.
The pure state of this element, which consists of white crystals, is odorless.
Potassium chloride, a salt, has a high solubility in water.
Potassium chloride is an essential element for the human body.
Proper distribution of the pH of all body fluids and a healthy nervous system ensure muscle function.
Low chloride levels cause alkalinization of body fluids and potassium deficiency in the urine.
Potassium Chloride is taken from the outside in case of potassium deficiency that occurs when potassium is thrown out of the body or potassium is not taken under normal conditions.
In this way, there are potassium chloride drugs in ampoule form on the market.
Some diseases that cause potassium loss are diarrhea, vomiting, gastrointestinal fistulas, primary and secondary hyperaldosteronism, chronic protein degradation.
Potassium chlorides symptoms are severe muscle weakness, tachycardia, hyporeflexia, and rapid and rapid breathing.


Usage areas POTASSIUM CHLORIDE
Drilling Potassium chloride is used as a stabilizer in water-based mud drilling-drilling.
Potassium chloride can also be used in oil production.
In electrolysis coating In acid baths, when high voltage is provided with potassium chloride, more coating can be done in less time.
Potassium chloride is used together with sulfonic acids in azo/textile dyes.
Heat treatment For materials that cannot be surface treated by soldering/sandblasting, in heat treatment processes (especially aluminum sheets)

Surface treatment, galvanization, casting, melting are used in metallurgy.
In addition, aluminum wastes are melted using potassium chloride and sodium chloride (salt), so that unnecessary waste is removed in it.
Aluminum waste becomes high quality as a result.
In Water Softening, Potassium Chloride is used to remove calcium and magnesium ions that cause water hardness from water.
Potassium chloride is also used in the fields of Food and Fertilizer.


SYNONYMS:
14336-88-0
231-211-8
7447-40-7
Chlorid draselny
Chlorure de potassium
Cloruro potásico
Hydrochloric acid potassium salt (1:1)
Kaliumchlorid
Potassium chloride
Sylvite (KCl)
Chloropotassuril diffu-K
Duffi-K
Kaleorod
Kalium S.R.
Kalium-duriles
POTASSIUM CHLORIDE
Potassium Chloride is a metal halide salt that is used in a variety of areas.
The dominant application of Potassium Chloride is to serve as a fertilizer, which offers potassium to plants and prevents them from certain diseases.
Besides, Potassium Chloride can be applied in food and medical industry.

CAS: 7447-40-7
MF: ClK
MW: 74.55
EINECS: 231-211-8

As a treatment for hypokalemia, potassium chloride pills are taken to balance the blood's potassium levels and prevent potassium deficiency in the blood.
In food industry, Potassium Chloride serves as a electrolyte replenisher and a good salt substitute for food, as well as a firming agent to give consistent texture to food, thus to strengthen its structure.
Potassium Chloride is a metal chloride salt with a K(+) counterion.
Potassium Chloride has a role as a fertilizer.
Potassium Chloride is a potassium salt, an inorganic chloride and an inorganic potassium salt.
Potassium Chloride is a water-soluble metal salt that comprises of potassium and chlorine.
Potassium Chloride can be extracted from minerals and salt water.
Potassium Chloride can be used in industries such as cosmetics, food, biomedical, chemical and fertilizer.
Potassium chloride has been used for many years to correct potassium deficiency.
The use of fast-acting tablets has been associated with lesions of the gastro-intestinal mucosa, which have led to their general withdrawal.

Potassium chloride Chemical Properties
Melting point: 770 °C (lit.)
Boiling point: 1420°C
Density: 1.98 g/mL at 25 °C (lit.)
Refractive index: n20/D 1.334
Fp: 1500°C
Storage temp.: 2-8°C
Solubility H2O: soluble
Form: random crystals
Color: White
Specific Gravity: 1.984
Odor: Odorless
PH Range: 7
PH: 5.5-8.0 (20℃, 50mg/mL in H2O)
Water Solubility: 340 g/L (20 ºC)
Sensitive: Hygroscopic
λmax λ: 260 nm Amax: 0.02
λ: 280 nm Amax: 0.01
Merck: 14,7621
Sublimation: 1500 ºC
BRN: 1711999
BCS Class: 1
Stability: Stable. Incompatible with strong oxidizing agents, strong acids. Protect from moisture. Hygroscopic.
InChIKey: WCUXLLCKKVVCTQ-UHFFFAOYSA-M
CAS DataBase Reference: 7447-40-7(CAS DataBase Reference)
NIST Chemistry Reference: Potassium chloride(7447-40-7)
EPA Substance Registry System: Potassium chloride (7447-40-7)

Potassium chloride, KCI, also known as potassium muriate and sylvite, is a colorless crystalline solid with a salty taste that melts at 776°C (1420 OF).
Potassium Chloride is soluble in water, but insoluble in alcohol.
Potassium chloride is used in fertilizers, pharmaceuticals, photography, and as a salt substitute.
Potassium chloride occurs as odorless, colorless crystals or a white crystalline powder, with an unpleasant, saline taste.

The crystal lattice is a face-centered cubic structure.
Potassium chloride occurs naturally as the mineralsylvite (KCl) and as carnallite(KCl·MgCl2·6H2O); Potassium Chloride is produced industriallyby fractional crystallizationof these deposits or of solutions fromlake brines.
Potassium Chloride has the interesting property of being more soluble than sodium chloride in hot water but less soluble in cold.
Potassium Chloride has low toxicity.

Uses
Potassium Chloride is used in drug preparations and as a food additive and chemical reagent.
Potassium Chloride is possible to reduce the sodium in your diet by substituting potassium chloride for table salt (sodium chloride), which may be healthier.
Molten potassium chloride is also used in the electrolytic production of metallic potassium.
Potassium Chloride is also found in seawater brine and can be extracted from the mineral carnallite.
About 4-5% of potash production is used in industrial applications.

In 1996, the world supply of industrial grade potash was close to 1.35 Mt K2O.
Potassium Chloride is 98-99% pure, compared with the agricultural potash specification of 60% K2O minimum (equivalent to 95% KCl).
Industrial potash should contain at least 62% K2O and have very low levels of Na, Mg, Ca, SO4 and Br.
This high-grade potash is produced by only a few producers in worldwide.

Potassium Chloride, also known as caustic potash, is the largestvolume K product for non-fertilizer use.
Potassium Chloride is produced by the electrolysis of industrial KCl and is widely used for manufacturing soaps, detergents, grease, catalysts, synthetic rubber, matches, dyes and insecticides.
Potassium Chlorideh is also as a liquid fertilizer and as an ingredient in alkaline batteries and photographic film processing chemicals.
Potassium Chloride is a raw material in the production of various K salts, mainly K carbonates, and also citrates, silicates, acetates, etc.
Potassium carbonate confers excellent clarity to glass thus is used for most fine optical lenses, eyeglasses, fine crystal, glassware, chinaware and TV tubes.

Potassium Chloride is used largely in the food and pharmaceutical industries.
Potash-derived compounds and salts are also used in the production of metal fluxes, cured meats, tempered steel, paper fumigants, case hardened steel, bleaching agents, baking powder, cream of tartar and beverages.
Worldwide, industrial Potassium Chloride is estimated to be used as follows: detergents and soaps, 30-35%; glass and ceramics, 25-28%; textiles and dyes 20-22%; chemicals and drugs, 13-15%; and other uses, 7-5% (UNIDO-IFDC, 1998).

Potassium Chloride, commonly referred to as muriate of potash, is the most common source of potash (K2O), and accounts for about 95 % of world potash production.
Virtually all (90 %) commercial potash is extracted from natural sources of potassium salt deposits occurring in thin beds in large salt basins formed by the evaporation of ancient seas.
Present-day salt lakes and natural brines represent about 10 % of total recoverable potash.
Extraction is followed by milling, washing, screening, flotation, crystallization, refining and drying.
More than 90 % of the total Potassium Chloride consumption is used for fertilizer production.
Production of potassium hydroxide accounts for more than 90 % of the non-fertilizer or industrial use of Potassium Chloride.
Potassium Chloride is also used in the production of some agricultural-grade liquid fertilizers.

uses of KCl include:
Potassium Chloride is inorganic salt used for making fertilizers, since the growth of many plants is limited by their potassium intake.
Potassium in plants is important for the osmotic and ionic regulation, plays a key role in the water homeostasis and is closely connected with processes involved in the protein synthesis.
In buffer solutions, electrode cells.
Potassium chloride may be used for the preparation of phosphate buffered saline, and for the extraction and solubilization of proteins.
Used in buffer solutions, medicine, scientific applications, and food processing.
Used in nutritent; gelling agent; salt substitute; yeast food.
food/foodstuff additives: Potassium Chloride is used as a nutrient and/or dietary supplement food additive.
Potassium Chloride also serves as a potassium supplement of animal feed.

pharmaceutical products: Potassium Chloride is an important therapeutic agent, which is used mainly in the treatment of hypokalemia and associated conditions.
Potassium Chloride is a potentially fatal condition in which the body fails to retain sufficient potassium to maintain health.
laboratory chemicals: Potassium Chloride is used in electrode cells, buffer solutions, and spectroscopy.
drilling mud for oil production industry: Potassium Chloride is used as conditioner in oil drilling muds and as a shale stabilizer to prevent swelling.
flame retardants and fire preventing agents: Potassium Chloride is used as a component in dry chemical fire extinguisher.
anti-freezing agents: Potassium Chloride is used to melt ice on streets and driveways.

Potassium Chloride is a widely used reagent in biochemistry and molecular biology.
Potassium Chloride is a component of phosphate buffered saline (PBS, Product No. P 3813) and of polymerase chain reaction (PCR) buffer (50 mM KCl).
Potassium Chloride is also used in studies of ion transport and potassium channels.
Potassium Chloride is also utilized in the solubilization, extraction, purification, and crystallization of proteins.
The use of Potassium Chloride in the crystallization of histone core octamers has been reported.
Potassium Chloride is a nutrient, dietary supplement, and gelling agent that exists as crystals or powder.

Potassium Chloride has a solubility of 1 g in 2.8 ml of water at 25°c and 1 g in 1.8 ml of boiling water.
Potassium Chloride, and sodium chloride and magnesium chloride diminish its solubility in water.
Potassium Chloride is used as a salt substitute and mineral supple- ment.
Potassium Chloride has optional use in artificially sweetened jelly and preserves.
Potassium Chloride is used as a potassium source for certain types of carrageenan gels.
Potassium Chloride is used to replace sodium chloride in low-sodium foods.

Agricultural Uses
Muriate of potash or Potassium Chloride, is a major potash fertilizer.
Potassium Chloride is water soluble and is generally blended with other components to make it a multi-nutrient fertilizer.
Potassium Chloride has a higher salt index than potassium sulphate and is recommended for most crops except tobacco, potato and grapes, which are sensitive to chloride ions.

Potassium Chloride, also known as muriate of potash, is generally blended with other components to make it a multinutrient fertilizer.
Potassium Chloride is a white crystalline solid, available in fine, coarse and granular grades.
Potassium Chloride is the least expensive carrier of potassium in the fertilizer market.
This important fertilizer contains about 48 to 52% plant food as potassium and about 48% chloride.
Coarser potassium blends well with granular N-P compounds to form an NPK-blended multinutrient fertilizer.
At least 78 % of the potassium salts are estimated to be consumed worldwide, in the form of potassium chloride, and over 90% of all processed potassium is used as fertilizer.

Muck, peat and sands are generally potassiumdeficient, whereas arid soils are mostly potassium-rich, with 448 kg/ha or more of readily available potassium.
Potassium chloride is neutral and totally watersoluble.
Potassium Chloride can be applied to all soils and crops that are not sensitive to chlorides.
Soluble soil-potassium is adsorbed and retained by soil colloids and thus prevented from leaching.
Roots take up potassium in the ionic form.
Potassium chloride is best applied either while sowing or prior to it.
However, when soils are light or coarsetextured, the applied potassium may be lost through leaching.
So, Potassium Chloride is preferable to apply potassium in split doses.
On heavy soils, the fertilizer is placed advantageously in bands, as in the case of phosphatic fertilizers.

Potassium chloride is manufactured from potash minerals or brine.
Sylvinite, which is a mixture of potassium chloride and halite, is the major potash mineral used for potassium chloride manufacture.
A large percentage of potassium chloride is mined and refined either by the floatation or crystallization process.
Both processes, of which the floatation process is more common, involve the separation of potassium chloride from sodium chloride.
Fine potassium chloride is a freeflowing material which does not cake in dry places.

Pharmaceutical Applications
Potassium chloride is widely used in a variety of parenteral and nonparenteral pharmaceutical formulations.
Potassium Chloride's primary use, in parenteral and ophthalmic preparations, is to produce isotonic solutions.
Potassium chloride is also used therapeutically in the treatment of hypokalemia.
Many solid-dosage forms of potassium chloride exist including: tablets prepared by direct compression and granulation; effervescent tablets; coated, sustained-release tablets; sustained- release wax matrix tablets;microcapsules;pellets; and osmotic pump formulations.

Experimentally, potassium chloride is frequently used as a model drug in the development of new solid-dosage forms, particularly for sustained-release or modified-release products.
Potassium chloride is also used widely in the food industry as a dietary supplement, pH control agent, stabilizer, thickener, and gelling agent.
Potassium Chloride can also be used in infant formulations.

Industrial uses
Potassium chloride is a colorless or white crystallinecompound of the composition KCl, usedfor molten salt baths for the heat treatment of steels.
The specific gravity is 1.987.
A bathcomposed of three parts potassium chloride andtwo parts barium chloride is used for hardeningcarbon-steel drills and other tools.
Steel toolsheated in this bath and quenched in a 3% sulfuricacid solution have a very bright surface.
A common bath is made up of potassium chlorideand common salt and can be used for temperaturesup to 900°C.
Potassium chloride is used in the porcelainenamel industry as a setting-up agent in titaniumcover coats.
In general, the quantities ofpotassium chloride, when used as an electrolyte,will be approximately the same as sodiumnitrite, which it replaces.
However, Potassium Chloride doesnot aid tearing resistance as does nitrite.
Themain advantage in using potassium chloride isthe freedom from yellowing or creaming whenused in a blue-white enamel.
Potassium chloride may exert an adverse effect on the glossand may cause a slight decrease in the acidresistingproperties of the enamel, although thelatter effect is somewhat debatable.

Production Methods
Potassium chloride occurs naturally as the mineral sylvite or sylvine; it also occurs in other minerals such as sylvinite, carnallite, and kainite.
Commercially, potassium chloride is obtained by the solar evaporation of brine or by the mining of mineral deposits.

Reactivity Profile
Potassium chloride is not in general strongly reactive.
Violent reaction with BrF3 and with a mixture of sulfuric acid potassium permanganate mixture.
Reacts with concentrated sulfuric acid to generate fumes of hydrogen chloride.

Health Hazard
Potassium chloride is an essential constituent of the body for intracellular osmotic pressure and buffering, cell permeability, acid-base balance, muscle contraction and nerve function.

SYMPTOMS: Large doses of Potassium chloride usually induce vomiting, so acute intoxication by mouth is rare.
If no pre-existing kidney damage, Potassium Chloride is rapidly excreted.
Poisoning disturbs the rhythm of heart.
Large doses by mouth can cause gastrointestinal irritation, purging, weakness, and circulatory disturbances.

Synonyms
potassium chloride
7447-40-7
Enseal
Klotrix
Sylvite
Slow-K
Klor-Con
Neobakasal
Muriate of potash
Chlorvescent
Kalitabs
Kaochlor
Potavescent
Kloren
Pfiklor
Potassium monochloride
Rekawan
Chloropotassuril
Klor-Lyte
KCl-retard Zyma
K-Contin
Kay Ciel
Monopotassium chloride
K-Lease
Kaon Cl
Kaon-Cl
Micro-K
Steropotassium
Acronitol
Kalcorid
Kaleorid
Kaliduron
Kaliglutol
Kalilente
Kalinorm
Kaliolite
Klorvess
Miopotasio
Potasion
Celeka
Chloride of potash
Durekal
Durules
Enpott
Kadalex
Kalipor
Kalipoz
Keylyte
Potasol
Natural sylvite
Kalium Duriles
Kalium Durules
Kalium Retard
Kalium-Durettes
Rekawan Retard
K-Lyte/Cl
Lento-Kalium
K-Lor
K-Tab
Kay-EM
Peter-kal
Ten-K
Kalitrans Retard
Potassium muriate
Durules-K
Kalium-R
Kay-Ciel
Repone K
Kalium SR
Diffu-K
K-Predne-Dome
Kalinor-Retard P
KCL Retard
Lento-K
Potassium chloride (KCl)
Super K
Ultra K Chlor
Ultra-K-Chlor
Addi-K
Cena-K
K-Care
K-Grad
Kaliumchlorid
Span-K
Kayciel
Clor-K-Zaf
Micro-K Extentcaps
Plus Kalium Retard
Kali muriaticum
K-Lyte Cl
Kato
Kay-Cee-L
Apo-K
K Tab
K-Dur
K-Sol
Leo-K
Micro-K LS
Micro-Kalium Retard
Rum-K
Potassiumchloride
Emplets potassium chloride
Slow-K tablets
Kalinorm Depottab
Nu-K
Kaon-Cl 10
Tripotassium trichloride
K-Norm
Infalyte
Super K (salt)
Kolyum
K-SR
Kaon-Cl TABS
Kalium S.R.
Dipotassium dichloride
Chlorid draselny
Potassium Cl
Klor-Con M20
Kaon Cl-10
Micro-K 10
potassium;chloride
Sylvite (KCl)
Chlorid draselny [Czech]
Epiklor
Sylvine
Klor-Con M10
Klor-Con M15
Caswell No. 686
Kali Chloratum
Kali Chloridum
Potassium chloride (K3Cl3)
KCL
Potassii Chloridum
Potassium chloride [JAN]
Chloride, Potassium
Klor-Con 10
CCRIS 1962
Chloride (as potassium)
Kalii chloridum
HSDB 1252
K+10
K-10
EINECS 231-211-8
Kalium S.R
NSC 77368
NSC-77368
Potassium Chloride 10meq in Plastic Container
Klotrix (TN)
EPA Pesticide Chemical Code 013904
Potassium Chloride in Plastic Container
Klor-con (TN)
INS NO.508
UNII-660YQ98I10
CHEBI:32588
Kaon-Cl (TN)
INS-508
K-dur (TN)
Potassium (as chloride)
Potassium chloride 30meq in plastic container
Potassium chloride 40meq in plastic container
Potassium thallium chloride (KTlCl)
[KCl]
MFCD00011360
14336-88-0
660YQ98I10
KCL (TN)
POTASSIUM(I) CHLORIDE
Potassium chloride [USP:JAN]
Potassium chloride,AR,99.5%
K+8
KSR
Potassium chloride, ACS reagent
DTXSID5021178
E 508
E-508
Potassium chloride 20meq in plastic container
EC 231-211-8
NSC77368
Kaysiel
THAM-E COMPONENT POTASSIUM CHLORIDE
(KCl)
B1653
HALFLYTELY COMPONENT POTASSIUM CHLORIDE
POTASSIUM CHLORIDE COMPONENT OF THAM-E
TIS-U-SOL COMPONENT POTASSIUM CHLORIDE
POTASSIUM CHLORIDE COMPONENT OF HALFLYTELY
POTASSIUM CHLORIDE COMPONENT OF TIS-U-SOL
Potassium chloride, ultra dry
POTASSIUM CHLORIDE (II)
POTASSIUM CHLORIDE [II]
Kaleorod
Kayback
Kaskay
Selora
POTASSIUM CHLORIDE (MART.)
POTASSIUM CHLORIDE [MART.]
Kalium-duriles
Kelp salt
Kaon Ultra
Kaon-ci
Repone-K
Duffi-K
Sando-K
POTASSIUM CHLORIDE (EP MONOGRAPH)
POTASSIUM CHLORIDE [EP MONOGRAPH]
POTASSIUM CHLORIDE (USP MONOGRAPH)
POTASSIUM CHLORIDE [USP MONOGRAPH]
Leo K
Sal digestnum sylvii
K. tab
K-lyte/C1
KM potassium chloride
Potassium Chloride BP
Trona muriate of potash
Trona potassium chloride
Chloropotassuril diffu-K
Potasalan
POTASSIUM CHLORIDE, ACS
Slow K
POTASSIUM CHLORIDE, U.S.P.
CHLOROVESCENT
POTASH MURIATE
ENSEAL KCL
potassium chloride salt
Hydrochloric acid potassium salt (1:1)
SLOW-K-TABLETS
Potassium Chloride,(S)
Potassium chloride (ACN
Cloruro de potasio (kcl)
Potassium chloride standard
D0E9JM
WLN: KA G
POTASSIUM CHLORIDE KC
B1653 [LANGUAL]
KALI MURIATICUM [HPUS]
DTXCID601178
Potassium Chloride, Food Grade
ENSEAL POTASSIUM CHLORIDE
POTASSIUM CHLORIDE [MI]
CHEMBL1200731
Potassium Chloride (FRU Grade)
POTASSIUM CHLORIDE [FCC]
POTASSIUM CHLORIDE 10MEQ
POTASSIUM CHLORIDE 20MEQ
POTASSIUM CHLORIDE 40MEQ
Potassium chloride solution, 1M
11118_FLUKA
Potassium chloride (JP15/USP)
Potassium chloride (JP17/USP)
POTASSIUM CHLORIDE [HSDB]
POTASSIUM CHLORIDE [INCI]
Potassium chloride, Optical Grade
WCUXLLCKKVVCTQ-UHFFFAOYSA-M
POTASSIUM CHLORIDE [VANDF]
Potassium chloride, LR, >=99%
AMY37139
CS-B1714
HY-Y0537
POTASSIUM CHLORIDE [USP-RS]
POTASSIUM CHLORIDE [WHO-DD]
POTASSIUM CHLORIDE [WHO-IP]
Potassium chloride, ACS, 99.5%
STR03715
Potassium Chloride - Drilling Grade
IN2900
Potassium chloride, AR, >=99.5%
AKOS015902779
AKOS024438069
AKOS024457458
DB00761
KALII CHLORIDUM [WHO-IP LATIN]
LS-1643
POTASSIUM CHLORIDE [ORANGE BOOK]
CHLORIDE (AS POTASSIUM) [VANDF]
POTASSIUM (AS CHLORIDE) [VANDF]
Potassium chloride, BioXtra, >=99.0%
Potassium chloride, BP, Ph. Eur. grade
E508
Potassium chloride Biochemical Grade = 99%
FT-0645107
P1757
potassıum chloride
potassıum cholorate; Potash Chlorate; Chloric Acid, Potassium Salt; Berthollet salt; Chlorate of Potash; cas no: 3811-04-9
potassıum cholorate
SYNONYMS Tripotassium citrate; Citric acid potassium salt 2-hydroxy-1,2,3-Propanetricarboxylic acid, tripotassium salt; Potassium citrate tribasic monohydrate; Potassium citrate tribasic preparation; Tripotassium citrate monohydrate; Tripotassium citrate monohydrate; CAS NO. 866-84-2 (Anhydrous) 6100-05-6 (Monohydrate)
POTASSIUM CITRATE
POTASSIUM COCOYL GLUTAMATE, Nom INCI : POTASSIUM COCOYL GLUTAMATE. Ses fonctions (INCI). Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance. Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation
POTASSIUM COCOATE
POTASSIUM COCOATE = COCONUT OIL FATTY ACID POTASSIUM SALT


CAS Number: 61789-30-8
EC Number: 263-049-9
Chem/IUPAC Name: Potassum salt of coconut acid


Potassium Cocoate is a potassium salt of Coconut Acid (q.v.).
Potassium Cocoate soap is a coconut oil derived potassium salt.
Potassium Cocoate soap contains glycerin, which serves as a natural moisturizer in personal care formulations.
Potassium Cocoate is the INCI name of the potassium salt of fatty acids that are obtained from natural sources.


The CAS number by which Potassium Cocoate can be easily found or identified is 61789-30-8.
Potassium Cocoate is the potassium salt of fatty acids obtained from coconut oil is a natural, anionic surfactant.
Soap made with Potassium Cocoate is a potassium salt obtained from coconut oil.
This soap contains glycerin, which serves as a natural moisturising ingredient in body care products.


Potassium Cocoate is widely regarded as a safe ingredient of natural origin.
Potassium Cocoate is a potassium salt obtained from fatty acids derived from coconut oil.
Coconut oil is edible, while Potassium Cocoate is not.
Potassium Cocoate is the main component of the so-called potassium coconut soaps.


Potassium Cocoate soaps contain glycerin, which acts as a moisturizer, leaving the skin deeply moisturized.
Potassium Cocoate is a potassium salt that originates from the fatty acids present in coconut oil.
While coconut oil is edible, Potassium Cocoate is not.
Potassium Cocoate, also known as potassium coco soap, is a translucent pale-yellow liquid that contains glycerine, a moisturizer.


Potassium Cocoate is a cleansing and surfactant agent (it maintains oil/water mixtures) obtained from coconut oil.
Potassium Cocoate is also called saponified coconut oil, or coconut soap.
Potassium Cocoate is a natural liquid surfactant made from coconut oil and glycerin.
Potassium Cocoate soap is a coconut oil-derived potassium salt.


Potassium Cocoate soap contains glycerin, which serves as a natural moisturizer in personal care formulations.
Potassium cocoate produced from coconut fatty acid.
Potassium Cocoate is the potassium salt of coconut fatty acid.
Potassium Cocoate's all natural, and 100% Vegan, with pure coconut Oil.


Potassium Cocoate is a potassium salt that comes from the fatty acids present in coconut oil.
Potassium Cocoate (Potassum salt of of coco fatty acid)
Potassium Cocoate is an anionic surfactant processed from 100% Organic coconut oil.
Potassium Cocoate is the potassium salt of the coconut fatty acid.


Potassium Cocoate is derived from 100% natural coconut oil and potassium hydroxide and consists of a mixture of fatty acids.
Potassium Cocoate is an aqueous solution of a potassium fatty acid soap.
Potassium Cocoate is the potassium salt of fatty acids obtained from coconut oil by saponification.
Potassium Cocoate, also known as potassium coconut soap, is a translucent pale yellow liquid that contains the humectant glycerin.


Potassium Cocoate is an all natural soap base made from saponified coconut oil.
Potassium Cocoate is also biodegradable and has no preservatives included.
Usage Concentration of Potassium Cocoate: 30-60% of the total formula, the amount can be adjusted depending on the final application
Potassium Cocoate is a surfactant of plant origin and is recommended.


Potassium Cocoate is biocompatible .
Potassium Cocoate is a detergent substance that is obtained by saponifying coconut oil.
Potassium Cocoate is the potassium salt of coconut fatty acids.
Potassium Cocoate is the potassium salt of fatty acids obtained from coconut oil by saponification.


Potassium Cocoate is a high-quality industrial-grade potassium soft soap.
Potassium Cocoate is a bio-based, coconut oil liquid soap product.
Potassium Cocoate is the potassium salt of coconut fatty acid.



USES and APPLICATIONS of POTASSIUM COCOATE:
Applications of Potassium Cocoate: Emulsifier / Waterproofing agents / Agricultural Chemicals / Insecticide / Soaps / Cometics / Latex
Industries of Potassium Cocoate: Lubricants Paper and paperboard Plastics
Potassium Cocoate is used for: Cleaning agent , De-inking agent , Lubricant
Potassium Cocoate is used Body Washes, Facial Cleansers, Hand Soap, Shampoo


Potassium Cocoate is often used in mild face cleansing gels, body cleansing gels and hand soaps due to the effective removal of contaminants from the surface.
In addition, Potassium Cocoate has foaming properties.
Potassium Cocoate also acts as a moisturizer.


Potassium Cocoate soaps have gained popularity recently.
Due to its excellent foaming ability and softness to the touch, Potassium Cocoate soap can be used as a base for natural shampoo formulations, liquid soaps and body washes.
Potassium Cocoate soaps contain glycerin, which acts as a moisturizer, leaving the skin deeply moisturized.


In addition to cosmetic products, Potassium Cocoate has also been used in detergents, which are intended as detergents for both home and professional use.
One of the main applications of Potassium Cocoate that use emulsifying and foaming properties is washing products and cleaning agents for hard surfaces, such as floors and tiles.


When used in an amount below 10% by weight, it can even be used in children’s products.
However, the maximum concentration of this ingredient in products does not exceed 35%.
Due to its excellent foaming capabilities and soft feel, Potassium Cocoate soap can be used as a base for natural shampoo formulations, liquid soaps and body washes.


Manufacturers use Potassium Cocoate primarily for the production of soaps and shampoos, but it has found use in several other applications as well, including laundry capsules.
Potassium Cocoate is obtained in the process of saponification of coconut oil acts as a detergent the pH range of the pure substance is 9-10 (slightly alkaline) colour from colourless to light yellow faint smell can be used both in preparations containing Sodium

Laureth Sulphate and in products without this compound acts as an alternative to Sodium Lauryl Sulphate and Sodium Laureth Sulphate.
Potassium Cocoate is used in cosmetics and household chemicals
The action in cosmetics, personal care products or products used in various industries is largely based on the emulsifying properties of Potassium Cocoate.


Potassium Cocoate is also used in agrochemicals such as in the preparation of insecticides.
Potassium Cocoate facilitates the effective connection of two liquids that do not mix with each other due to their different polarity.
Potassium Cocoate is often called water and oil phases, the permanent combination of which is possible thanks to the use of such Potassium Cocoate surfactants.


Manufacturers use Potassium Cocoate to make soaps and shampoos.
Potassium Cocoate is used in the manufacture of soft soaps, respectful of the skin.
Potassium Cocoate is found in many natural cleansing products and products for children.
Use Potassium Cocoate to add bubbles to liquid soap, shampoo, and scrub.


Due to its excellent foaming capabilities and soft feel, Potassium Cocoate soap can be used as a base for natural shampoo formulations, liquid soaps and body washes.
Potassium Cocoate has a good washing power, as well as other useful characteristics (anti-foaming effect and thickening effect in detergents, fine and soft foam effect in bars of soap) and its low cost have made its use widespread, even in high concentrations.


Potassium Cocoate is used in many products for washing machines, for washing dishes by hand, for floors and also in soaps and soaps for body hygiene.
Potassium Cocoate is made to be diluted, and has many great applications.
Potassium Cocoate can easily be used as a base for shampoo, a body cleanser, hand wash or even as a mild laundry detergent base.


Because Potassium Cocoate is a great cleaner, and produces nice natural foam you can also easily just add it many of your store bought products as well to add even better performance to them.
Since it is all natural Coconut oil, Potassium Cocoate also contains from 10% to 12% glycerin, adding good moisturizing qualities to the soap.


Potassium Cocoate is made to be diluted or added in to other soaps.
Dilution rate depends on what you are making.
Example: Dilute our simple soap base potassium cocoate 40 with 2 parts water for a nice liquid hand soap or shampoo.
You can even add fragrance(s) and color as desired.


Simple soap Potassium Cocoate can easily improve the feel and performance of synthetic detergent shampoos, body washes, laundry detergents
Soaps made from coconut oil produce the most copious lather of all the vegetable oil soaps.
Since we use whole coconut oil, the natural glycerin found in the oil is retained.


This adds emollient and moisturizing qualities often lacking in fatty acid soaps.
Potassium Cocoate may be incorporated in to hand soap, shave cream, body wash and other organic-focused products.
Further, the foaming properties and feel of synthetic-based soaps may be improved by adding 10-25% coconut oil soap.
Due to its foaming properties, Potassium cocoate is used widely in shampoos, scrubs and liquid soaps.


Since Potassium cocoate is derived from the whole oil, it contains glycerine, which serves as a natural moisturiser.
Fatty acid soaps are commonly used surfactants for their cleaning and degreasing properties, but Potassium Cocoate can also help to control foam.
Potassium Cocoate is also frequently used in personal care products and this product is ideal for use in liquid formulations, such as hand soaps for dispensers, shower and bath products, etc.


Soaps are predominantly manufactured from vegetable oil raw materials and so are often perceived as natural or naturally derived surfactants.
Potassium soaps provide the advantage of increased solubility over sodium salts.
Potassium Cocoate is a mild anionic surfactant suitable for use as a main active ingredient in formulations of laundry detergents and cosmetic products.


Potassium Cocoate's a awesome natural surfactant and can be used in Soap, Shampoo, Body Baths, Scrubs and more.
The potassium salts of coconuts, combined with Jojoba salts and olive oil salts, commonly known as liquid castile soap.
Potassium Cocoate has consistency regulator, has cleansing effects.
Potassium Cocoate is used Structuring agent, foaming agent, surfactant, cleansing, non-irritating, emollient, antibacterial, nourishes hair roots, promotes their growth, in case of hair loss.


Potassium Cocoate is mainly used in the production of soaps and cleaning products.
Potassium Cocoate works as an emulsifier (combines the water and fat components), stabilizer and mild preservative, and when in contact with water, forms an emulsion that helps remove impurities and excess oil from the skin Cosmetic products containing potassium cocoate are suitable for all skin types.


Potassium Cocoate not only washes them carefully, but also acts as an antiseptic, has antioxidant effects and promotes hydration.
Potassium Cocoate is mainly used in the production of soaps and cleaning products.
Potassium Cocoate works as an emulsifier (combines the water and fat components), stabilizer and mild preservative, and when in contact with water, forms an emulsion that helps remove impurities and excess oil from the skin.


Cosmetic products containing Potassium Cocoate are suitable for all skin types.
Potassium Cocoate not only washes them carefully, but also acts as an antiseptic, has antioxidant effects and promotes hydration.
Recommended Applications of Potassium Cocoate: Body Wash, Hand Wash, Multipurpose Home Cleaning.
Potassium Cocoate's high foaming qualities and cleaning capabilities make it ideal for use as a base surfactant in many formulations and applications or to be used by itself as a plant-derived liquid soap.


Potassium Cocoate is sulfate-free, preservative-free, detergent-free, and is eco-friendly.
Potassium Cocoate is an anionic, naturally derived surfactant.
Potassium Cocoate can be used in moisturizing hand soap, shampoos.
Potassium Cocoate fits the concept of natural soap.


Potassium Cocoate has excellent foaming properties and is ideal for use in personal care formulations for shampoos, liquid soaps, bar soaps and shower gels.
Potassium Cocoate is also widely used in cleaning and I&I applications such as surgical soaps and scrubs, as well as for cleaning hard surfaces.


-Personal care uses of Potassium Cocoate:
• liquid soaps
• shower products
• bath foams
• shaving products
• shampoos


-Home care uses of Potassium Cocoate:
• liquid laundry
• toilet cleaners
• eco-friendly multi-purpose cleaners
• eco-friendly floor cleaners


-Application areas of Potassium Cocoate:
*HI&I cleaning
*Personal care
*Laundry detergents


-Applications:
*Shampoos
*Soap bars
*Liquid hand soaps
*Industrial hand soaps
*Surgical scrub soaps
*Hard surface cleaners



THE MAIN FUNCTIONS OF POTASSIUM COCOATE IN PRODUCTS:
*acts as a detergent, surfactant, washing substance
*is a foaming substance
*acts as an emulsifier
*acts as a surfactant



PRODUCTS WITH POTASSIUM COCOATE:
Potassium Cocoate is a very popular ingredient in eco-detergents, conventional detergents, and many body cleansers.
Potassium Cocoate is considered safe because of its natural origin and therefore it is readily used in the production of many products with versatile applications.
Popular products in which Potassium Cocoate can be found:
*shaving foams and creams,
*bar soaps,
*shampoos,
*shower gels,
*liquid soaps,
*surgical scrubs,
*laundry capsules,
*surface cleaners,
*insecticidal preparations.



BENEFITS OF POTASSIUM COCOATE:
• Natural origin
• Palm and palm kernel oil free
• Good cleansing properties
• Foam control
• Natural moisturizing properties
• Preservative free
• Liquid solution
• Easy to handle
• Soap of vegetable origin from coconut.
• Completely and quickly biodegradable
• Potassium salt of fatty acid of coconut oil or Potassium Cocoate for short is a liquid soap made from organically grown coconut oil fatty acids.
• Produces soap with abundant foam.
• Potassium cocoate can also be used as a substitute for Alkyl Ether Sulfate surfactants (SLS, SLES, ALS, and ALES) without sacrificing foam and cleanliness.



FUNCTIONS OF POTASSIUM COCOATE:
*Moisturizer
*Emulsifier
*Foaming agent
*Stabilizer
*Excellent thickener
*Cleansing agent
*Anionic surfactant
*Reduces foam
*Emulsifying agent:
Potassium Cocoate promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)
*Surfactant:
Potassium Cocoate reduces the surface tension of cosmetics and contributes to the even distribution of the product during use
*Potassium Cocoate is a natural surfactant, a chemical that removes dirt from the surface of objects and skin when you mix it with water.
*Potassium Cocoate loosens and keeps dirt and grease off surfaces until they flow down the drain.
*TENSID (EMULSIFYING) - EMULGATOR:
Allows the formation of finely divided mixtures of oil and water (emulsions)
*TENSID (CLEANING):
Detergent substance for cleaning skin, hair and/or teeth



ADVANTAGES OF POTASSIUM COCOATE:
*Excellent foaming capabilities
*Bright colour
*Low odour
*Naturally derived
*Preservative-free
*Excellent choice for sulphate-free formulations
*Excellent thickening abilities



FEATURES OF POTASSIUM COCOATE:
*A true Liquid soap.
*All Vegetable origin.
*No parabens
*No Sulfates /no SLS & SLES
*No PEGS, PPG or DEA
*No Glycols
*No Phthalates
*No mineral oil compounds
*Requires only dilution, and addition of any desired fragrance(s) and color



HOW POTASSIUM COCOATE WORKS:
Surfactants such as Potassium Cocoate spread molecules apart, reducing a surface's tension.
As a result, the dirt and grease trapped by those molecules are released.
The grime rises, leaving the surface below clean.



WHAT DOES POTASSIUM COCOATE DO IN A FORMULATION?
*Emulsifying
*Surfactant



PHYSICAL and CHEMICAL PROPERTIES of POTASSIUM COCOATE:
Appearance: Clear solution.
Color: Light gold color.
Solids: 40.0% ± 1.0%
Specific Gravity: 1.0408
Density: 8.647 ppg (typical)
pH (20c): 10.5 ± 0.5
Viscosity (20c): 65 cps +/-15
Appearance: Pale Colour Free Flowing Liquid
appearance at 20°C: clear amber liquid
density at 20°C, g/cm3, c.: 1.03
solids, % wt., min.: 34
pH, 10% aqueous solution: 10.0 - 11.5
Appearance: Liquid.
Color: Yellow.
Odor: Characteristic.
Odor threshold: Not available.
pH: (10% aqueous): 9.5 – 10.5
Melting point: Not available.

Initial boiling point and range: Not available.
Flash point: > 93.3°C PMCC
Evaporation rate: Not available.
Flammability (solid, gas): Not applicable.
Upper/lower flammability or explosive limits: Not applicable.
Vapor pressure: Not available.
Vapor density: Not available.
Relative density: 1.036 g/mL @ 25°C
Solubility(ies): Soluble in water.
Partition coefficient: Not available.
Auto-ignition temperature: Not available.
Decomposition Temperature: Not available.
Viscosity: Not available.
Explosive properties: Not applicable.
Oxidizing properties: Not applicable.
Other information: None.



FIRST AID MEASURES of POTASSIUM COCOATE:
-Description of first aid measures:
*General information:
Show this Safety Data Sheet to the medical personnel.
*Inhalation:
No specific recommendations.
Loosen tight clothing such as collar, tie or belt.
Get medical attention if any discomfort continues.
*Ingestion:
No specific recommendations.
Rinse mouth.
Get medical attention if any discomfort continues.
*Skin Contact:
No specific recommendations.
Rinse with water.
*Eye contact:
Remove any contact lenses and open eyelids wide apart.
Rinse with water.
Get medical attention if any discomfort continues.
-Indication of immediate medical attention and special treatment needed:
*Notes for the doctor:
Treat symptomatically.
*Specific treatments:
No special treatment required.



ACCIDENTAL RELEASE MEASURES of POTASSIUM COCOATE:
-Personal precautions, protective equipment and emergency procedures:
*Personal precautions:
No specific recommendations.
-Environmental precautions
*Environmental precautions:
Avoid discharge into drains or watercourses or onto the ground.
-Methods and material for containment and cleaning up:
Methods for cleaning up:
Reuse or recycle products wherever possible.
Wash thoroughly after dealing with a spillage.
Dispose of contents/container in accordance with national regulations.



FIRE FIGHTING MEASURES of POTASSIUM COCOATE:
-Extinguishing media:
*Suitable extinguishing media:
The product is not flammable.
Extinguish with alcohol-resistant foam, carbon dioxide, dry
powder or water fog.
Use fire-extinguishing media suitable for the surrounding fire.



EXPOSURE CONTROLS/PERSONAL PROTECTION of POTASSIUM COCOATE:
-Exposure controls:
*Appropriate engineering controls:
No specific ventilation requirements.
*Eye/face protection:
No specific eye protection required during normal use.
**Large Spillages:
Eyewear complying.
*Hand protection:
No specific hand protection recommended.
**Large Spillages:
Wear protective gloves.
*Hygiene measures:
Wash after use and before eating, smoking and using the toilet.
Do not eat, drink or smoke when using this product.
*Respiratory protection:
No specific recommendations.
Provide adequate ventilation.
*Environmental exposure controls:
Not regarded as dangerous for the environment.



HANDLING and STORAGE of POTASSIUM COCOATE:
-Precautions for safe handling:
*Usage precautions:
Read and follow manufacturer's recommendations.
Keep away from food, drink and animal feeding stuffs.
Handle all packages and containers carefully to minimize spills.
Keep container tightly sealed when not in use.
*Advice on general occupational hygiene:
Wash promptly if skin becomes contaminated.
Take off contaminated clothing and wash before reuse.
Wash contaminated clothing before reuse.
-Conditions for safe storage, including any incompatibilities:
*Storage precautions:
Store away from incompatible materials
No specific recommendations.
*Storage class:
Unspecified storage.



STABILITY and REACTIVITY of POTASSIUM COCOATE:
-Stability:
Stable at normal ambient temperatures and when used as recommended.
Stable under the prescribed storage conditions.
-Possibility of hazardous reactions:
No potentially hazardous reactions known.
-Conditions to avoid:
There are no known conditions that are likely to result in a hazardous situation.
-Materials to avoid:
No specific material or group of materials is likely to react with the product to produce a hazardous situation.
-Hazardous decomposition products:
Does not decompose when used and stored as recommended.



SYNONYMS:
Coconut Oil Fatty Acid Potassium Salt
Fatty acids, coconut oil, potassium salts
Soap
Fatty acids, coco, potassium salts
Cocoa fatty acids, potassium salts
Potassium cocoate
Potassium coconut oil soap
Fatty Acids, Coco, Potassium Salts
Fatty Acids, Coconut Oil, Potassium Salts
Potassium Cocoate
Cocoa fatty acids, potassium salts
Fatty acids, coco, potassium salts
POTASSIUM COCOYL GLUTAMATE
potassium coco hydrolyzed animal protein; POTASSIUMCOCYLHYDROLYZEDCOLLAGEN; Proteinhydrolysat-Kokosfettsurechlorid-Kalium-Salz; Potassium cocoyl collagen, hydrolyzed cas no: 68920-65-0
POTASSIUM COCOYL HYDROLYZED COLLAGEN
cas no 7778-50-9 Potassium dichromate (VI); Potassium bichromate; Kaliumdichromat; Dicromato de potasio; Dichromate de potassium; Bichromate of potash; Dichromic acid, dipotassium salt; Ddipotassium Dichromate; Chromic acid, dipotassium salt; Iopezite;
POTASSIUM COCOYL HYDROLYZED COLLAGEN
CAS Number: 68920-65-0
Chem/IUPAC Name: Potassium salt of the condensation product of coconut acid chloride and hydrolyzed collagen

DESCRIPTION:

In cosmetics and personal care products, Potassium Cocoyl Hydrolyzed Collagen is used in the formulation of bath, skin cleansing, shaving and hair products, perfumes and shampoos.
Potassium Cocoyl Hydrolyzed Collagen is a collagen condensate co-surfactant suitable for mild shower and foam baths as well as shampoos and body cleansers.


USES OF POTASSIUM COCOYL HYDROLYZED COLLAGEN:
Potassium Cocoyl Hydrolyzed Collagen is added to cosmetics and personal care products to enhance the appearance and feel of hair, by increasing hair body, suppleness, or sheen, or by improving the texture of hair that has been damaged physically or by chemical treatment.
Potassium Cocoyl Hydrolyzed Collagen is also used to enhance the appearance of dry or damaged skin by reducing flaking and restoring suppleness, and they clean the skin and hair by helping water to mix with oil and dirt so that they can be rinsed away.
• Surfactant
• Conditioner
• Softener
• Moisturizer
• Lubricant
• Antistat in cosmetics
• Shampoos
• Bubble baths
• Cleansers

FUNCTION OF POTASSIUM COCOYL HYDROLYZED COLLAGEN:
Lamepon- S belongs to the product class of protein fatty acid condensates which account of its excellent physiological characteristics is highly suited for use in mild shower and foam baths as well as in shampoos and body cleansers.
As a co-surfactant, Lamepon- S clearly improves the skin and eye mucosa compatibility of basic surfactants and/or surfactant systems.


What does POTASSIUM COCOYL HYDROLYZED COLLAGEN do in a formulation?
• Hair conditioning
• Skin conditioning
• Surfactant


SAFETY INFORMATION ABOUT POTASSIUM COCOYL HYDROLYZED COLLAGEN:

First aid measures:
Description of first aid measures:
General advice:
Consult a physician.
Show this safety data sheet to the doctor in attendance.
Move out of dangerous area:

If inhaled:
If breathed in, move person into fresh air.
If not breathing, give artificial respiration.
Consult a physician.
In case of skin contact:
Take off contaminated clothing and shoes immediately.
Wash off with soap and plenty of water.
Consult a physician.

In case of eye contact:
Rinse thoroughly with plenty of water for at least 15 minutes and consult a physician.
Continue rinsing eyes during transport to hospital.

If swallowed:
Do NOT induce vomiting.
Never give anything by mouth to an unconscious person.
Rinse mouth with water.
Consult a physician.

Firefighting measures:
Extinguishing media:
Suitable extinguishing media:
Use water spray, alcohol-resistant foam, dry chemical or carbon dioxide.
Special hazards arising from the substance or mixture
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas

Advice for firefighters:
Wear self-contained breathing apparatus for firefighting if necessary.
Accidental release measures:
Personal precautions, protective equipment and emergency procedures
Use personal protective equipment.

Avoid breathing vapours, mist or gas.
Evacuate personnel to safe areas.

Environmental precautions:
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Methods and materials for containment and cleaning up:
Soak up with inert absorbent material and dispose of as hazardous waste.
Keep in suitable, closed containers for disposal.

Handling and storage:
Precautions for safe handling:
Avoid inhalation of vapour or mist.

Conditions for safe storage, including any incompatibilities:
Keep container tightly closed in a dry and well-ventilated place.
Containers which are opened must be carefully resealed and kept upright to prevent leakage.
Storage class (TRGS 510): 8A: Combustible, corrosive hazardous materials

Exposure controls/personal protection:
Control parameters:
Components with workplace control parameters
Contains no substances with occupational exposure limit values.
Exposure controls:
Appropriate engineering controls:
Handle in accordance with good industrial hygiene and safety practice.
Wash hands before breaks and at the end of workday.

Personal protective equipment:
Eye/face protection:
Tightly fitting safety goggles.
Faceshield (8-inch minimum).
Use equipment for eye protection tested and approved under appropriate government standards such as NIOSH (US) or EN 166(EU).

Skin protection:
Handle with gloves.
Gloves must be inspected prior to use.
Use proper glove
removal technique (without touching glove's outer surface) to avoid skin contact with this product.
Dispose of contaminated gloves after use in accordance with applicable laws and good laboratory practices.
Wash and dry hands.

Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
Splash contact
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
It should not be construed as offering an approval for any specific use scenario.

Body Protection:
Complete suit protecting against chemicals, The type of protective equipment must be selected according to the concentration and amount of the dangerous substance at the specific workplace.
Respiratory protection:
Where risk assessment shows air-purifying respirators are appropriate use a fullface respirator with multi-purpose combination (US) or type ABEK (EN 14387) respirator cartridges as a backup to engineering controls.

If the respirator is the sole means of protection, use a full-face supplied air respirator.
Use respirators and components tested and approved under appropriate government standards such as NIOSH (US) or CEN (EU).
Control of environmental exposure
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Stability and reactivity:
Chemical stability:
Stable under recommended storage conditions.
Incompatible materials:
Strong oxidizing agents:
Hazardous decomposition products:
Hazardous decomposition products formed under fire conditions.
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas.

Disposal considerations:
Waste treatment methods:
Product:
Offer surplus and non-recyclable solutions to a licensed disposal company.
Contact a licensed professional waste disposal service to dispose of this material.
Contaminated packaging:
Dispose of as unused product.

SYNONYMS OF POTASSIUM COCOYL HYDROLYZED COLLAGEN:
Potassium Coco-Hydrolyzed Collagen
Unipon S
Potassium cocoyl collagen, hydrolyzed
Acid chlorides, coco, reaction products with protein hydrolyzates, potassium salts
68920-65-0
Potassium coco-hydrolyzed animal protein
Potassium cocoyl hydrolyzed animal protein
Potassium cocoyl hydrolyzed collagen
Polypeptide oleate condensate
Potassium coco hydrolyzed animal protein


POTASSIUM DIACETATE

Potassium diacetate is a chemical compound with the molecular formula C4H7KO4.
Potassium diacetate is the potassium salt of acetic acid and exists in the form of a white crystalline powder.
The chemical structure of Potassium diacetate consists of two acetic acid molecules (CH3COOH) combined with one potassium ion (K+).

CAS Number: 4251-29-0
EC Number: 224-580-1



APPLICATIONS


Potassium diacetate has several applications, primarily in the food industry.
Here are its main applications:

Food Preservation:
Potassium diacetate is used as a food preservative to extend the shelf life of various food products by inhibiting the growth of bacteria, molds, and yeasts.
Potassium diacetate helps maintain food freshness and reduces the risk of spoilage.

Meat Processing:
In the meat industry, Potassium diacetate is used as a curing agent and preservative in cured and processed meats, such as ham, bacon, sausages, and deli meats.
Potassium diacetate contributes to the preservation and flavor development of these products.

Baked Goods:
Potassium diacetate is used in baked goods, including bread, cakes, and pastries, to enhance their shelf life and prevent the growth of spoilage microorganisms.

Dairy Products:
Potassium diacetate is added to dairy products like cheese, yogurt, and sour cream to improve their stability and prevent the growth of harmful bacteria.

Sauces and Dressings:
Potassium diacetate is used in various sauces, dressings, and condiments to maintain product quality, stability, and microbial control.

Pickling:
Potassium diacetate is a key component in certain brine solutions used for pickling vegetables and fruits.
Potassium diacetate contributes to the preservation and flavor development of pickled products.

Beverages:
Potassium diacetate is used in certain beverages, such as soft drinks and alcoholic beverages, to control acidity and microbial growth.

Salad Dressings:
Potassium diacetate helps stabilize salad dressings, ensuring their quality and preventing spoilage during storage.

Snack Foods:
Potassium diacetate is used in certain snack foods, like chips and crackers, to enhance their shelf life and maintain product quality.

Ready-to-Eat Meals:
Potassium diacetate is used in ready-to-eat meals and processed foods to improve their safety and shelf stability.

Food Additive:
Potassium diacetate serves as an acidity regulator and enhances the overall flavor profile of food products.

Clean Label Preservative:
As a natural and clean label preservative, Potassium diacetate meets consumer preferences for safer and more natural food ingredients.

Animal Feed:
Potassium diacetate is added to animal feed formulations to improve feed hygiene and prevent the growth of harmful microorganisms.

Fermented Foods:
Potassium diacetate is used in certain fermented food products to control acidity and microbial fermentation.

Soup and Sauce Mixes:
Potassium diacetate is used in the production of soup and sauce mixes to enhance their shelf life and improve product stability.


Potassium diacetate is widely used as a food preservative to extend the shelf life of various food products by inhibiting the growth of bacteria, molds, and yeasts.
In the meat industry, Potassium diacetate is a common curing agent and preservative used in cured and processed meats, such as ham, bacon, sausages, and deli meats.

Potassium diacetate is added to baked goods, including bread, cakes, and pastries, to enhance their shelf life and prevent the growth of spoilage microorganisms.
In dairy products like cheese, yogurt, and sour cream, Potassium diacetate improves stability and helps control microbial growth.

Potassium diacetate is used in various sauces, dressings, and condiments to maintain product quality, stability, and microbial control.
Potassium diacetate is a key component in certain brine solutions used for pickling vegetables and fruits, contributing to preservation and flavor development.
In beverages, such as soft drinks and alcoholic beverages, it helps control acidity and prevent microbial growth.

Potassium diacetate is used in salad dressings to stabilize the emulsion, ensuring their quality and preventing spoilage during storage.
Potassium diacetate is incorporated into certain snack foods, like chips and crackers, to extend their shelf life and maintain product quality.
In ready-to-eat meals and processed foods, Potassium diacetate improves safety and extends shelf stability.

As a food additive, Potassium diacetate serves as an acidity regulator, enhancing the overall flavor profile of food products.
Due to its natural origin, Potassium diacetate is used as a clean label preservative, aligning with consumer preferences for safer and more natural food ingredients.
Potassium diacetate is added to animal feed formulations to improve feed hygiene and prevent the growth of harmful microorganisms.

Potassium diacetate is used in certain fermented food products to control acidity and microbial fermentation.
Potassium diacetate plays a crucial role in the preservation of sauces and soups, improving their shelf life and overall quality.

In convenience foods like instant noodles and ready-to-mix meals, Potassium diacetate helps maintain product safety and stability.
Potassium diacetate is used in the production of pickled products like pickles and sauerkraut, ensuring their preservation and flavor enhancement.
Potassium diacetate is utilized in certain beverage formulations to control pH levels and improve taste consistency.
Potassium diacetate is a valuable tool in ensuring food safety by reducing the risk of microbial contamination and spoilage.

In the production of canned goods, Potassium diacetate contributes to maintaining product quality and extending the shelf life.
Potassium diacetate is used in certain salad kits and pre-prepared vegetables to prevent discoloration and maintain freshness.
Potassium diacetate is employed in certain marinades and brines to enhance flavor and ensure microbial control.
Potassium diacetate is used in certain frozen foods to maintain product quality during storage and distribution.

Potassium diacetate serves as a cost-effective and efficient alternative to traditional chemical preservatives in many food applications.
Potassium diacetate is a versatile additive that finds applications in a wide range of food products, contributing to their overall safety, stability, and sensory attributes.
Potassium diacetate is widely used as a food preservative in various industries, including meat processing, bakery, dairy, and beverage.
In the meat industry, Potassium diacetate is added to processed and cured meats to prevent microbial growth and increase their shelf life.

Potassium diacetate acts as a curing agent in meat products, improving their texture, flavor, and safety.
In the bakery sector, Potassium diacetate is incorporated into baked goods to inhibit mold and bacterial growth, extending their freshness.
Potassium diacetate is commonly used in the production of bread and other baked products, allowing longer storage without sacrificing quality.

Potassium diacetate is essential in the dairy industry, preventing spoilage and maintaining the quality of various dairy products.
In cheese manufacturing, Potassium diacetate helps control microbial activity, ensuring product stability during aging.

In salad dressings and condiments, Potassium diacetate enhances the stability and shelf life while maintaining desired flavor profiles.
Potassium diacetate plays a significant role in the pickling process, preserving vegetables and fruits and imparting their characteristic tangy taste.
In the beverage industry, Potassium diacetate helps control pH levels and microbial growth in soft drinks and alcoholic beverages.
Its application in ready-to-eat meals and processed foods ensures product safety and prolongs shelf life.
Potassium diacetate is used as a natural alternative to traditional chemical preservatives, meeting clean-label requirements.

Potassium diacetate finds applications in various sauces, gravies, and soups, providing long-lasting quality and flavor stability.
In the production of frozen food products, Potassium diacetate maintains texture, taste, and microbial safety during prolonged storage.
Potassium diacetate is employed in spice blends and seasoning mixes to maintain potency and microbial control.

In the preparation of pre-packaged salads, Potassium diacetate enhances freshness and prevents spoilage during distribution.
Potassium diacetate is a vital component in marinades and brines, adding flavor while inhibiting bacterial growth.
Potassium diacetate is used in the production of canned goods, preserving the quality of fruits, vegetables, and other products.

Potassium diacetate is included in certain snack foods to extend shelf life without compromising taste and texture.
Potassium diacetate is used in pet food formulations to maintain product quality and safety during storage.
In the production of fermented foods like sauerkraut and kimchi, Potassium diacetate helps control the fermentation process.
Its incorporation in frozen desserts prevents the formation of ice crystals, preserving the product's smooth texture.

Potassium diacetate is essential in the production of certain pickled condiments like relishes and chutneys.
In the preparation of instant noodles and dehydrated soups, it enhances shelf life and microbial safety.
Potassium diacetate is a versatile and reliable food additive, contributing to the overall quality, safety, and satisfaction of numerous food products.



DESCRIPTION


Potassium diacetate is a chemical compound with the molecular formula C4H7KO4.
Potassium diacetate is the potassium salt of acetic acid and exists in the form of a white crystalline powder.
The chemical structure of Potassium diacetate consists of two acetic acid molecules (CH3COOH) combined with one potassium ion (K+).

Potassium diacetate is often used as a food preservative and acidity regulator in the food industry.
Potassium diacetate has antimicrobial properties that help inhibit the growth of certain bacteria, molds, and yeasts in food products, thereby extending their shelf life.

Potassium diacetate is considered a safe food additive and is commonly used in a variety of food products, including baked goods, meat, poultry, and dairy items.
Potassium diacetate is a white crystalline powder or granular substance with the chemical formula C4H7KO4.
Potassium diacetate is the potassium salt of acetic acid and is composed of two acetic acid molecules linked to one potassium ion.

Potassium diacetate is commonly used as a food preservative and acidity regulator in the food industry.
With antimicrobial properties, Potassium diacetate helps inhibit the growth of certain bacteria, molds, and yeasts, thus extending the shelf life of food products.
Potassium diacetate imparts a mild, vinegar-like taste to foods, contributing to their flavor profile without overpowering other tastes.

Potassium diacetate is highly water-soluble, allowing for easy incorporation into various food formulations and products.
Potassium diacetate is used in baked goods, processed meats, dairy items, and other food applications to enhance safety and quality.
Due to its effectiveness in preventing microbial growth, it plays a crucial role in preserving the freshness of perishable food items.

Potassium diacetate is considered safe for consumption when used within approved levels and in compliance with food regulations.
Potassium diacetate serves as an alternative to traditional chemical preservatives and can be used in products labeled as "clean label" or "natural."

In addition to its antimicrobial properties, it acts as an acidity regulator, helping to control and stabilize the pH of food products.
Potassium diacetate is stable under normal storage conditions and does not undergo significant degradation.



PROPERTIES


Chemical Formula: C4H7KO4
Molecular Weight: 150.22 g/mol
Appearance: White crystalline powder or granules
Odor: Odorless
Taste: Mild, vinegar-like taste
Solubility: Highly soluble in water
Density: ~1.57 g/cm³ (bulk density)
Melting Point: Decomposes around 300°C (572°F)
Boiling Point: Decomposes at high temperatures
pH: Acidic (pH ~ 3.5 - 4.5 in a 10% solution)
Hygroscopicity: Moderately hygroscopic
Stability: Stable under normal storage conditions
Decomposition: Decomposes upon heating to release acetic acid and potassium carbonate
Acidity: Potassium diacetate releases acetic acid in the presence of water, contributing to acidity in food products.
Water Activity: Reduces water activity in food products, inhibiting microbial growth and spoilage.
Antimicrobial Properties: Exhibits antimicrobial activity against bacteria, molds, and yeasts, thereby extending the shelf life of food products.
Acetate Content: Contains approximately 60-70% acetic acid by weight.
pH Regulation: Acts as an acidity regulator in food products, controlling pH levels for desired taste and stability.
Compatibility: Compatible with a wide range of food ingredients and additives.
Safety: Considered safe for consumption when used within approved levels and in compliance with food regulations.
Mode of Action: The antimicrobial action is based on acetic acid's ability to disrupt cellular functions in microorganisms.
Natural Origin: Derived from acetic acid, which occurs naturally in vinegar and fermented foods.
Food Additive Number: E262 (as Potassium diacetate).
Clean Label: Serves as a natural, clean-label alternative to traditional chemical preservatives.
Versatility: Finds applications in various food products, including meat, bakery, dairy, beverages, pickles, and sauces.



FIRST AID


Inhalation:

If inhaled, remove the affected person to fresh air immediately.
Keep the person calm and in a comfortable position.
If the person is having difficulty breathing, provide oxygen if available and seek immediate medical attention.
If breathing has stopped, administer cardiopulmonary resuscitation (CPR) if you are trained to do so.


Skin Contact:

Remove contaminated clothing and immediately wash the affected skin with plenty of soap and water.
Rinse thoroughly for at least 15 minutes to ensure complete removal of the chemical.
If skin irritation, redness, or any signs of chemical burns appear, seek medical attention.


Eye Contact:

Immediately flush the eyes with clean, gentle running water for at least 15 minutes, holding the eyelids open to ensure thorough rinsing.
Remove contact lenses, if present and easily removable, after the initial flushing, to avoid potential irritation between the lens and the eye.
Seek immediate medical attention or consult an ophthalmologist for further evaluation and treatment.


Ingestion:

If Potassium diacetate is accidentally ingested, do not induce vomiting unless instructed to do so by medical personnel.
Rinse the mouth thoroughly with water and spit out to remove any residual chemical.
Do not give anything by mouth to an unconscious person.
Seek immediate medical attention or contact a poison control center for guidance.



HANDLING AND STORAGE


Handling:

Personal Protective Equipment (PPE):
When handling Potassium diacetate, wear appropriate PPE, including safety goggles or face shield to protect the eyes and gloves made of chemical-resistant material to prevent skin contact.

Ventilation:
Work in a well-ventilated area to minimize inhalation exposure.
Use local exhaust ventilation or ensure adequate general ventilation to maintain air quality.

Avoid Contact:
Avoid direct skin and eye contact with Potassium diacetate.
In case of accidental exposure, follow the first aid measures provided earlier.

Containment:
Use appropriate containers or storage vessels to prevent spills or leaks.
Have spill containment measures, such as absorbent materials, readily available to handle any accidental spills.

No Eating or Drinking:
Avoid eating, drinking, or smoking while handling Potassium diacetate to prevent accidental ingestion.

Wash Hands:
After handling Potassium diacetate, wash hands thoroughly with soap and water before eating, drinking, or using the restroom.

Prevent Cross-Contamination:
Store Potassium diacetate away from other incompatible substances to prevent cross-contamination.

Labeling:
Ensure all containers are properly labeled with the product name, hazard warnings, and handling precautions.


Storage:

Temperature:
Store Potassium diacetate in a cool, dry, and well-ventilated area.
Avoid exposure to direct sunlight and high temperatures, as it may cause decomposition.

Moisture Control:
Protect the compound from excessive moisture, as it can lead to caking or lump formation.

Separation:
Store Potassium diacetate away from strong oxidizing agents and incompatible materials to prevent reactions.

Container Integrity:
Use airtight and non-reactive containers to store Potassium diacetate.
Ensure that the containers are in good condition to prevent leaks.

Elevated Areas:
Store the chemical on elevated racks or pallets to minimize the risk of contact with water or moisture on the floor.

Secondary Containment:
If bulk quantities are stored, consider providing secondary containment to prevent environmental contamination in case of spills.

Accessibility:
Keep Potassium diacetate containers easily accessible for inspection, inventory management, and emergency response.

Away from Food and Feed:
Store Potassium diacetate away from food, animal feed, and food contact surfaces to prevent accidental contamination.

Keep Away from Children:
Store the compound in a secure location, away from the reach of children and unauthorized personnel.

Separate from Incompatible Materials:
Store Potassium diacetate separately from incompatible substances, including strong bases, strong acids, and reducing agents.
POTASSIUM DICHROMATE

Potassium dichromate, with the chemical formula K2Cr2O7, is a chemical compound made up of potassium ions (K+) and dichromate ions (Cr2O7^2-).
Potassium dichromate is a bright orange or red-orange crystalline solid.
Potassium dichromate is a powerful oxidizing agent and is often used in laboratories and various industrial applications.
Potassium dichromate is highly toxic and poses several health and environmental hazards.

CAS Number: 7778-50-9
EC Number: 231-906-6



APPLICATIONS


Potassium dichromate is widely used as an oxidizing agent in chemical laboratories for various analytical and synthetic purposes.
Potassium dichromate plays a critical role in titration methods, especially in redox titrations, to determine the concentration of reducing agents.

In the manufacturing of pigments, it is utilized to produce vivid and colorfast colors for inks, dyes, and paints.
Potassium dichromate has historically been employed in early photography as a key component in photographic emulsions.
In electroplating processes, it serves to create corrosion-resistant and durable metal coatings on various substrates.

Potassium dichromate is used in wood preservation to protect wood against decay and insect infestation.
In chemical synthesis, it is vital in the conversion of primary alcohols into aldehydes.
Potassium dichromate is a fundamental ingredient in the creation of pyrotechnic compositions, enhancing the colors and effects of fireworks.

Potassium dichromate is involved in the production of artificial gemstones, contributing to the vibrant colors of synthetic gem materials.
Potassium dichromate has applications in the field of metallurgy, aiding in the purification of certain metals.
Potassium dichromate is used as a catalyst in some industrial chemical processes, facilitating the conversion of raw materials into useful products.

In the textile industry, it is employed in the production of dyes and pigments for fabric coloring.
Some specialty batteries utilize potassium dichromate in their design, harnessing its oxidizing properties.

Potassium dichromate is a part of certain etching and engraving processes, where it plays a role in creating intricate designs on metal surfaces.
In the field of glass manufacturing, it contributes to the production of various types of colored glass.

Potassium dichromate is employed in the production of corrosion-resistant coatings for steel structures and equipment.
Potassium dichromate has been used in the formulation of anti-fouling paints for ship hulls to prevent the attachment of marine organisms.

In analytical chemistry, it is used for quality control and calibration purposes, ensuring the accuracy of measurement instruments.
Potassium dichromate is crucial in the synthesis of specialty chemicals and pharmaceuticals.
In the field of gemology, it aids in testing and identifying gemstones based on their reactions with the compound.

Potassium dichromate is used in the preparation of chemical reagents for laboratory testing, often as a part of reagent kits.
Potassium dichromate is involved in soil testing to assess nutrient and mineral content.

In the ceramics industry, it contributes to the creation of vibrant glazes and finishes.
Potassium dichromate is employed in the preparation of developer solutions for certain photographic processes.

Potassium dichromate is used in the production of sealing compounds for laboratories and manufacturing facilities, ensuring a secure and tamper-evident seal.
Potassium dichromate finds application in the preservation of biological specimens in laboratories, helping to prevent decay and maintain specimen integrity.
In the chemical industry, it is utilized in the manufacture of specialty chemicals, including those used in the production of pharmaceuticals and agrochemicals.
Potassium dichromate is involved in the preparation of reagents for volumetric analysis, ensuring the accuracy of chemical measurements.

In the field of metallurgy, it assists in refining metals and alloys, playing a role in processes like metal extraction and purification.
Potassium dichromate is employed in the printing industry, contributing to the formulation of inks for various printing methods.

In the creation of anti-corrosion coatings for metal structures and equipment, it helps protect against rust and degradation.
Potassium dichromate has been used in the historical preservation of documents and artwork, aiding in the restoration and conservation of cultural heritage.
Potassium dichromate is utilized in the production of corrosion-resistant coatings for aluminum surfaces, extending their lifespan.
Potassium dichromate serves as a catalyst in certain organic reactions, facilitating the synthesis of valuable chemical intermediates.

In the tanning industry, it plays a role in the treatment of leather to enhance its quality and durability.
Potassium dichromate is applied in soil testing to assess soil composition and nutrient content for agricultural and environmental purposes.

In the electronics industry, it is used in the etching of printed circuit boards to create intricate pathways for electrical components.
Potassium dichromate contributes to the creation of colorfast and durable inks for marking and labeling applications.

Potassium dichromate is an essential component in the manufacture of anti-fouling coatings for ships, preventing the attachment of marine organisms.
Potassium dichromate is used in analytical chemistry for the calibration and standardization of analytical instruments and measurement tools.
In the textile industry, Potassium dichromate aids in the development of dyeing processes to achieve vibrant and long-lasting colors on fabrics.

Potassium dichromate has been employed in the creation of corrosion-resistant coatings for aerospace components and structures.
In the production of specialty glass, it contributes to the formulation of colored and tinted glass products.

Potassium dichromate is used as a laboratory reagent in various chemical and biochemical experiments and tests.
Potassium dichromate is involved in the synthesis of polymer additives that improve the properties of plastics and rubber materials.

In the mining industry, it plays a role in the extraction and separation of valuable minerals from ore.
The chemical assists in the creation of heat-resistant coatings for industrial equipment, furnaces, and chimneys.
Potassium dichromate is used in the formulation of sealants for laboratories and cleanroom facilities, ensuring airtight and sterile environments.

In gemology, it is applied for testing gemstones and identifying their authenticity based on their reactions with the compound.
Potassium dichromate finds application in the creation of specialty adhesives and bonding agents used in industries like aerospace and automotive manufacturing.
Potassium dichromate plays a role in the development of corrosion-resistant coatings for pipelines and storage tanks in the oil and gas industry.
In the field of ceramics, it is used to create glazes for pottery and ceramics, enhancing their appearance and durability.
Potassium dichromate is employed in the production of colorants for the textile and fashion industry, allowing for vibrant and long-lasting fabric dyes.
In the field of water treatment, it aids in the removal of contaminants and impurities through oxidation and precipitation reactions.

Potassium dichromate is involved in the creation of pigments used in the automotive industry, contributing to the coloration of paints and coatings.
Potassium dichromate plays a role in the formulation of high-temperature-resistant coatings for industrial ovens and equipment subjected to extreme heat.

In forensic science, Potassium dichromate is utilized as a reagent in the analysis of physical evidence, helping to identify substances and determine their composition.
Potassium dichromate is applied in the manufacturing of rust converters and rust removers, facilitating the restoration of corroded metal surfaces.
Potassium dichromate is used in the calibration of spectrophotometers and colorimeters, ensuring accurate color measurements in various applications.
In the field of optoelectronics, it contributes to the fabrication of color filters and optical components used in displays and sensors.

Potassium dichromate is involved in the formulation of high-quality ceramics for electrical insulators, ensuring electrical safety in power distribution.
In the food industry, it is used in certain food coloring applications, adhering to strict safety regulations and guidelines.

Potassium dichromate plays a role in the production of specialty papers with enhanced resistance to moisture and degradation.
Potassium dichromate is utilized in the development of colored glassware, contributing to the aesthetic appeal of glass products.

In analytical chemistry, it is employed in the assessment of water quality, helping to detect and quantify pollutants and contaminants.
Potassium dichromate aids in the production of durable and weather-resistant coatings for outdoor structures, such as bridges and outdoor sculptures.
Potassium dichromate is used in the creation of anti-graffiti coatings that make it easier to remove unwanted markings from surfaces.

In the construction industry, it contributes to the formulation of adhesives for structural applications and concrete repair.

Potassium dichromate finds application in the aerospace sector for surface treatments to enhance the durability and performance of aircraft components.
Potassium dichromate is used in the calibration and validation of environmental monitoring equipment, ensuring accurate measurements of air and water quality.
Potassium dichromate assists in the creation of heat-resistant seals for high-temperature applications, such as furnaces and industrial ovens.

In the field of art restoration, it is applied to remove discolored varnishes and stains from paintings and artifacts.
Potassium dichromate plays a role in the development of specialty coatings for solar panels, improving their efficiency and longevity.
Potassium dichromate is used in the preparation of inks for banknotes and official documents to incorporate security features.

In the automotive industry, it contributes to the development of corrosion-resistant coatings for undercarriage protection and vehicle parts.
Potassium dichromate is used in the manufacturing of ceramic capacitors, which find applications in electronics for energy storage and signal filtering.

In the field of historical artifact preservation, museums and cultural institutions have used it to restore and conserve artworks, manuscripts, and metal artifacts.
Potassium dichromate is involved in the production of stained glass, contributing to the vivid and intricate designs found in churches, cathedrals, and decorative windows.

Potassium dichromate plays a role in the fabrication of solar control films and window tints, enhancing the energy efficiency of buildings and vehicles.
In microbiology, Potassium dichromate is used for the staining of certain cellular structures and microorganisms, aiding in microscopic examinations.
Potassium dichromate assists in the creation of anti-reflective coatings for optical lenses, reducing glare and improving visual clarity.

In the field of fuel cell technology, it is utilized for the development of catalysts that enhance energy conversion and storage.
Potassium dichromate is employed in environmental monitoring for the detection and quantification of pollutants in soil and water samples.
Potassium dichromate finds application in the creation of thermochromic materials, which change color in response to temperature variations, for use in sensors and indicators.

In geology and mineralogy, it is used to perform various tests to identify minerals and assess their properties.
Potassium dichromate plays a role in the production of fluorescent coatings for signage, enhancing visibility in low-light conditions.
In the pulp and paper industry, it is used to assess and control the bleachability of wood pulp in papermaking processes.

Potassium dichromate is applied in the testing of materials for resistance to oxidation and corrosion, critical in materials science and engineering.
Potassium dichromate is involved in the formulation of specialty adhesives for bonding difficult-to-adhere materials, such as glass and ceramics.
In forensic toxicology, it is employed in the analysis of biological specimens to detect the presence of drugs and toxins.
Potassium dichromate contributes to the development of specialty coatings for automotive headlights, providing durability and protection.

In the production of fine china and porcelain, it is used to create intricate and colorful designs on tableware and decorative items.
Potassium dichromate is applied in quality control and assurance procedures for monitoring and ensuring the consistency and quality of products.

In the field of gem cutting and polishing, it helps shape and enhance the appearance of gemstones, including diamonds.
Potassium dichromate assists in the fabrication of high-temperature-resistant seals for industrial furnaces and kilns.
Potassium dichromate is used in the restoration and conservation of historical architectural features, such as stained glass windows and decorative metalwork.

In the fabrication of photovoltaic cells, it plays a role in enhancing the efficiency and performance of solar panels.
Potassium dichromate is involved in the creation of anti-tarnish coatings for jewelry and silverware, preserving their shine.

In the aerospace industry, it contributes to the development of coatings that protect aircraft from corrosion and environmental stress.
Potassium dichromate finds applications in nanotechnology, where it is used in the synthesis and manipulation of nanoparticles with specific properties for diverse applications.



DESCRIPTION


Potassium dichromate, with the chemical formula K2Cr2O7, is a chemical compound made up of potassium ions (K+) and dichromate ions (Cr2O7^2-).
Potassium dichromate is a bright orange or red-orange crystalline solid.
Potassium dichromate is a powerful oxidizing agent and is often used in laboratories and various industrial applications.
Potassium dichromate is highly toxic and poses several health and environmental hazards.

Potassium dichromate is a bright orange or red-orange crystalline solid with a distinctive color.
Potassium dichromate compound has the chemical formula K2Cr2O7, consisting of potassium ions and dichromate ions.
Potassium dichromate is known for its powerful oxidizing properties, making it a valuable chemical reagent in various applications.

Potassium dichromate is highly water-soluble and can easily dissolve in water to form a bright orange solution.
Potassium dichromate is a well-recognized chemical in laboratories, commonly used for its oxidizing and analytical capabilities.
Potassium dichromate has a strong, acrid odor and a bitter taste, which makes it easily detectable.

Due to its toxicity, handling and storage require strict safety precautions and adherence to safety guidelines.
Potassium dichromate has been used in historical applications, such as wood preservation, although its use has significantly declined due to health and environmental concerns.
Potassium dichromate is often utilized in various analytical techniques, including titrations, where it serves as an oxidizing agent.
Potassium dichromate is a key component in several chemical reactions, particularly those involving the conversion of primary alcohols to aldehydes.

In the manufacturing of certain inks and dyes, potassium dichromate plays a role in the synthesis of vibrant and colorfast pigments.
In the field of photography, it was historically used in early photographic processes, serving as an essential ingredient in photographic emulsions.
Potassium dichromate is a mainstay in electroplating processes, contributing to the formation of durable and corrosion-resistant metal coatings.

In pyrotechnics and fireworks, potassium dichromate can enhance the vibrant colors produced during combustion.
Some artificial gemstones are created using this chemical, thanks to its role in producing coloration.
Potassium dichromate is known for its intense and vibrant orange hue, making it easily identifiable.

Its oxidizing strength is attributed to its ability to release oxygen when exposed to reducing agents, promoting chemical reactions.
Due to its toxicity, contact with skin, eyes, or ingestion should be strictly avoided, and protective equipment is a must when handling it.
The use of this chemical in wood preservation was popular in the past but has waned significantly due to environmental concerns and safer alternatives.
Potassium dichromate is one of the chemicals that have contributed to the development of analytical chemistry, particularly in redox reactions and titrations.



PROPERTIES


Physical Properties:

Chemical Formula: K2Cr2O7
Molecular Weight: 294.18 g/mol
Appearance: Bright orange or red-orange crystalline solid
Odor: Strong, acrid odor
Taste: Bitter taste
Density: 2.676 g/cm³
Melting Point: 398 °C (748 °F)
Boiling Point: Decomposes before boiling
Solubility: Highly soluble in water, forming a bright orange solution
Solubility in Other Solvents: Soluble in hot concentrated sulfuric acid
Crystal Structure: Orthorhombic


Chemical Properties:

Chemical Category: Inorganic compound, chromate
Oxidation State: Chromium exists mainly in the +6 oxidation state.
Oxidizing Properties: Potassium dichromate is a powerful oxidizing agent, releasing oxygen in reactions.
Redox Reactions: It participates in numerous redox reactions, particularly as an oxidizing agent.
Toxicity: Highly toxic, posing significant health and environmental hazards.
Decomposition: Decomposes upon heating, releasing toxic fumes.
Acidity: Potassium dichromate is acidic and can react with bases.
Reducing Agents: It can react violently with reducing agents and combustible materials.
Flammability: Non-flammable, but can promote combustion of other substances.
Compatibility: Incompatible with various chemicals, including strong acids and reducing agents.



FIRST AID

Inhalation:

If Potassium dichromate is inhaled, immediately move the affected person to an area with fresh air.
If the person is having difficulty breathing, seek medical attention promptly.
Administer artificial respiration if the individual stops breathing and is trained to do so.
Keep the affected person calm and at rest while awaiting medical assistance.


Skin Contact:

In case of skin contact with Potassium dichromate, quickly remove contaminated clothing and rinse the affected skin area with plenty of running water for at least 15 minutes.
Use a mild soap to gently wash the skin while rinsing.
Do not rub or scrub the skin, as it may exacerbate chemical exposure.
Seek medical attention if irritation, redness, or burns occur, or if the exposure is extensive.


Eye Contact:

If Potassium dichromate comes into contact with the eyes, it is crucial to act promptly.
Immediately flush the affected eye with gently flowing lukewarm water for at least 15 minutes, holding the eyelids open to ensure thorough rinsing.
Seek immediate medical attention, even while continuing the eye irrigation.
Remove contact lenses if they are being worn, but do so gently and continue rinsing the eye.


Ingestion:

If Potassium dichromate is ingested, do not induce vomiting unless instructed to do so by a medical professional.
Rinse out the mouth with water if the person is conscious and able to do so.
Seek immediate medical attention, bringing the container or label of the chemical for identification.
Be prepared to provide information on the amount ingested, the time of ingestion, and any symptoms experienced.



HANDLING AND STORAGE


Handling:

Personal Protective Equipment (PPE):
When handling Potassium dichromate, wear appropriate personal protective equipment (PPE) including safety goggles, chemical-resistant gloves, a lab coat, and a laboratory apron to minimize skin and eye contact.
Respiratory protection may be necessary if there is a risk of inhalation exposure.

Ventilation:
Work in a well-ventilated area, such as a chemical fume hood or a room with adequate ventilation.
Use local exhaust ventilation to capture and remove any potentially harmful vapors.

Avoid Contact:
Minimize contact with the skin, eyes, and mucous membranes.
Avoid ingestion and inhalation.
Do not touch your face or mouth while working with Potassium dichromate.

Proper Handling Techniques:
Handle Potassium dichromate with care to prevent spills and splashes.
Use non-sparking tools and equipment when necessary.
Be cautious when transferring the chemical from one container to another.

Labeling:
Ensure that all containers, including secondary containers, are properly labeled with the name of the chemical, its hazards, and appropriate warning symbols.

Prohibition of Eating and Drinking:
Do not eat, drink, or smoke while handling Potassium dichromate.
Wash hands thoroughly with soap and water before eating, drinking, or taking breaks.

Chemical Compatibility:
Be aware of chemical compatibility.
Avoid contact between Potassium dichromate and incompatible substances, such as reducing agents, flammable materials, and strong acids.


Storage:

Designated Storage Area:
Store Potassium dichromate in a dedicated storage area that is well-ventilated and separate from other chemicals to prevent potential cross-contamination.

Container Type:
Use chemically compatible containers, such as high-density polyethylene (HDPE) or glass, to store Potassium dichromate.
Ensure containers are tightly sealed to prevent moisture absorption and spillage.

Labeling:
Clearly label storage containers with the chemical name, hazards, and storage precautions.
Include appropriate warning symbols.

Temperature Control:
Store Potassium dichromate away from heat sources and direct sunlight.
Maintain the storage area at a controlled temperature to prevent decomposition or reactions.

Protection from Moisture:
Potassium dichromate is sensitive to moisture, and contact with water can lead to the release of toxic fumes.
Keep the chemical dry and store in airtight containers with desiccants if necessary.

Separation:
Store Potassium dichromate away from incompatible substances, especially reducing agents and flammable materials.
Follow storage segregation guidelines.



SYNONYMS


Dipotassium dichromate
Bichromate of potash
Chromic acid, dipotassium salt
Red potassium chromate
Dipotassium tetraoxochromate
Potassium bichromate
Potassium pyrochromate
Dipotassium chromium(VI) oxide
Potassium dichromate(VI)
Orange salt
Potassium bichromate(VI)
Potassium dichromate anhydrous
Red-orange crystals
Dichromic acid, dipotassium salt
Potassium dichromate anhydrous
Orange chromate
Potassium dichromate(IV)
Potassium dichromate anhydrous
Red potassium dichromate
Dipotassium dichromate(VI)
Dipotassium tetraoxochromate(VI)
Red bichromate of potash
Dipotassium chromium oxide
Potassium orange chromate
Orange crystalline powder
Chromic acid dipotassium salt
Potassium chromate(VI)
Potassium bichromate(VI)
Red-orange dichromate
Potassium dichromate anhydrous
Orange potassium chromate
Potassium pyrochromate(VI)
Red-orange chromate
Potassium dichromate(VI) anhydrous
Dichromate of potash
Dipotassium chromium oxide
Red chromate of potash
Dipotassium dichromate(VI) anhydrous
Potassium dichromate(VI) anhydrous
Redoxon
Dipotassium tetraoxochromate(VI)
Bichromate of potash
Chromate of potash
Dipotassium chromate
Potassium dichromate anhydrate
Potassium dichromate anhydride
Orange salt of chromium
Dipotassium dichromate(IV)
Potassium dichromate anhydrous orange
Red potassium chromate
POTASSIUM DICHROMATE
cas no 13943-58-3 (anhydrous), 14459-95-1 (trihydrate) Tetrapotassium hexakis Ferrate; Yellow Prussiate of potash; KFCT; Potassium ferrocyanide(II) trihydrate; Potassium ferrocyanide trihyrate; Potassium Hexacyanoferrate(II)Trihydrate; Yellow potash Prussiate;
POTASSIUM FERRO CYANIDE
GOLD(I) POTASSIUM CYANIDE GOLD POTASSIUM CYANIDE POTASSIUM AUROCYANIDE POTASSIUM CYANOAURATE POTASSIUM DICYANOAURATE(+1) POTASSIUM DICYANOAURATE(I) POTASSIUM GOLD(+1)CYANIDE POTASSIUM GOLD CYANIDE POTASSIUM GOLD(I) CYANIDE Potassium gold(III) cyanide potassium tetrakis(cyano-c)aurate Aurate(1-),bis(cyano-C),potassium Aurate(1-),bis(cyano-C)-,potassium Aurouspotassiumcyanide bis(cyano-c)-aurate(1-potassium Potassiumaurcyanide Gold (1) Potassium Cyanide potassium dicyanoaurate POTASSIUM DICYANOAURATE(I), 99.98% GOLD POTASSIUM CYANIDE 99.99% CAS:13967-50-5
POTASSIUM HEXAFLOROZIRCONATE
POTASSIUM HYALURONATE, N° CAS : 31799-91-4. Nom INCI : POTASSIUM HYALURONATE. Nom chimique : Hyaluronic acid, potassium salt. Ses fonctions (INCI). Agent d'entretien de la peau : Maintient la peau en bon état
POTASSIUM HYALURONATE
SYNONYMS Potassium hydrogen carbonate; Carbonic acid, monopotassium salt; Potassium acid carbonate; CAS NO. 298-14-6
POTASSIUM HYDROGEN CARBONATE
SYNONYMS Potassium hydrate; Caustic potash; Lye; potassa; CAS NO. 1310-58-3
POTASSIUM HYDROXIDE
DESCRIPTION:
Potassium hydroxide is an inorganic compound with the formula KOH, and is commonly called caustic potash.
Along with sodium hydroxide (NaOH), KOH is a prototypical strong base.
Potassium hydroxide has many industrial and niche applications, most of which exploit its caustic nature and its reactivity toward acids.

CAS Number: 1310-58-3
EC Number: 215-181-3


Potassium hydroxide, also known as lye is an inorganic compound with the chemical formula KOH.
Also commonly referred to as caustic potash, it is a potent base that is marketed in several forms including pellets, flakes, and powders.
Potassium hydroxide is used in various chemical, industrial and manufacturing applications.

Potassium hydroxide is also a precursor to other potassium compounds.
Potassium hydroxide, KOH formula which, solid, white chemical.
Dissolves in water releases heat.

Potassium hydroxide also has the ability to retain moisture.
Gradually absorbing moisture and a soluble form.
Industrial cleaning industry, agriculture, fertilizer industry, veterinary medicine, and many other areas.
Potassium Hydroxide, soft soap, liquid soap manufacturing, agriculture, the regulation of the pH of acidic soils, animal and pesticide production and so on. used for different purposes in many industries.





Potassium hydroxide is used in food to adjust pH, as a stabilizer, and as a thickening agent.
This ingredient has been considered as generally safe as a direct human food ingredient by the FDA, based upon the observance of several good manufacturing practice conditions of use.

In addition to the above uses, potassium hydroxide is also used in making soap, as an electrolyte in alkaline batteries and in electroplating, lithography, and paint and varnish removers. Liquid drain cleaners contain 25 to 36% of potassium hydroxide 6.

Medically, potassium hydroxide (KOH) is widely used in the wet mount preparation of various clinical specimens for microscopic visualization of fungi and fungal elements in skin, hair, nails, and even vaginal secretions 1, 6.

Recently, it has been studied for efficacy and tolerability in the treatment of warts. It was determined that topical KOH solution was found to be a safe and effective treatment of plane warts










Potassium hydroxide solution (KOH aqueous) is a colourless inorganic liquid that acts as a strong base (alkali).
KOH solution is also known as caustic potash or potash lye and has many different applications.
During the KOH liquid production process, chlorine and hydrogen are formed as co-products.

Vynova supplies caustic potash liquid in a variety of concentrations, from a standard 45-50% solution to any other concentration upon request.
Thanks to our extensive storage capacity and distribution network, we are able to supply the market from numerous strategic locations.


Potassium hydroxide, also known as lye, is an inorganic compound with the chemical formula KOH.
Commonly referred to as caustic potash, Potassium hydroxide is a strong base marketed in a variety of forms, including pellets, flakes, and powders.
Potassium hydroxide is used in a variety of chemical, industrial and manufacturing applications.

An estimated 700,000 to 800,000 tonnes were produced in 2005.
KOH is noteworthy as the precursor to most soft and liquid soaps, as well as numerous potassium-containing chemicals.
Potassium hydroxide is a white solid that is dangerously corrosive.

Potassium hydroxide, solution appears as an clear aqueous solution.
Potassium hydroxide is Corrosive to metals and tissue.
Potassium hydroxide is Noncombustible.

Potassium hydroxide is Used in chemical manufacturing, petroleum refining, cleaning compounds.
Potassium hydroxide, [dry solid, flake, bead, or granular] appears as a white solid.

Potassium hydroxide is Corrosive to metals and tissue. Used in soap manufacture, bleach, as an electrolyte in alkaline batteries, and as a food additive.
Potassium hydroxide is an alkali metal hydroxide.

KOH is uniquely focused on potassium-based chlor-alkali products, like potassium hydroxide (KOH).
Produced by the electrolysis of potassium chloride brine, KOH has high pH and is highly corrosive, making it uniquely suited for a broad range of applications which require these physical properties and/or require a source of potassium.
Potassium hydroxide is appreciated for being a clear, colourless liquid and a strong alkali.

PROPERTIES AND STRUCTURE OF POTASSIUM HYDROXIDE:
KOH exhibits high thermal stability.
Because of this high stability and relatively low melting point, Potassium hydroxide is often melt-cast as pellets or rods, forms that have low surface area and convenient handling properties.
These pellets become tacky in air because KOH is hygroscopic.

Most commercial samples are ca. 90% pure, the remainder being water and carbonates.
Its dissolution in water is strongly exothermic.
Concentrated aqueous solutions are sometimes called potassium lyes.
Even at high temperatures, solid KOH does not dehydrate readily.

STRUCTURE OF POTASSIUM HYDROXIDE:
At higher temperatures, solid KOH crystallizes in the NaCl crystal structure.
The OH− group is either rapidly or randomly disordered so that it is effectively a spherical anion of radius 1.53 Å (between Cl− and F− in size).
At room temperature, the OH− groups are ordered and the environment about the K+ centers is distorted, with K+−OH− distances ranging from 2.69 to 3.15 Å, depending on the orientation of the OH group.

KOH forms a series of crystalline hydrates, namely the monohydrate KOH • H2O, the dihydrate KOH • 2H2O and the tetrahydrate KOH • 4H2O.

REACTIONS OF POTASSIUM HYDROXIDE:
About 121 g of KOH dissolve in 100 mL water at room temperature, which contrasts with 100 g/100 mL for NaOH.
Thus on a molar basis, NaOH is slightly more soluble than KOH.
Lower molecular-weight alcohols such as methanol, ethanol, and propanols are also excellent solvents.

They participate in an acid-base equilibrium.
In the case of methanol the potassium methoxide (methylate) forms:

KOH + CH3OH → CH3OK + H2O
Because of its high affinity for water, KOH serves as a desiccant in the laboratory.
Potassium hydroxide is often used to dry basic solvents, especially amines and pyridines.

As a nucleophile in organic chemistry:
KOH, like NaOH, serves as a source of OH−, a highly nucleophilic anion that attacks polar bonds in both inorganic and organic materials.
Aqueous KOH saponifies esters:
KOH + RCOOR' → RCOOK + R'OH

When R is a long chain, the product is called a potassium soap.
This reaction is manifested by the "greasy" feel that KOH gives when touched; fats on the skin are rapidly converted to soap and glycerol.

Molten KOH is used to displace halides and other leaving groups.
The reaction is especially useful for aromatic reagents to give the corresponding phenols.

Reactions with inorganic compounds:
Complementary to its reactivity toward acids, KOH attacks oxides.
Thus, SiO2 is attacked by KOH to give soluble potassium silicates.
KOH reacts with carbon dioxide to give potassium bicarbonate:
KOH + CO2 → KHCO3

Manufacture:
Historically, KOH was made by adding potassium carbonate to a strong solution of calcium hydroxide (slaked lime).
The salt metathesis reaction results in precipitation of solid calcium carbonate, leaving potassium hydroxide in solution:

Ca(OH)2 + K2CO3 → CaCO3 + 2 KOH
Filtering off the precipitated calcium carbonate and boiling down the solution gives potassium hydroxide ("calcinated or caustic potash").
This method of producing potassium hydroxide remained dominant until the late 19th century, when it was largely replaced by the current method of electrolysis of potassium chloride solutions.
The method is analogous to the manufacture of sodium hydroxide (see chloralkali process):

2 KCl + 2 H2O → 2 KOH + Cl2 + H2
Hydrogen gas forms as a byproduct on the cathode; concurrently, an anodic oxidation of the chloride ion takes place, forming chlorine gas as a byproduct.
Separation of the anodic and cathodic spaces in the electrolysis cell is essential for this process


USES OF POTASSIUM HYDROXIDE:
Potassium hydroxide solution has a wide range of applications in a variety of industries, from food, consumer care and pharmaceuticals to agriculture and glass manufacturing.
Potassium hydroxide is also used as an electrolyte in the production of alkaline batteries and to manufacture biodiesel as well as deicers for airport runways.

In addition, KOH lye is an intermediate in the formulation of personal care products such as liquid lotions, soaps and shampoos.
As a strong base, Potassium hydroxide reacts with grease and fats, making it a useful ingredient in drain and oven cleaners as well as in non-phosphate detergents.

Due to its low salt index and high solubility, caustic potash also serves in the manufacture of liquid fertiliser mixtures.
KOH liquid is known to increase crop yield and to improve the drought tolerance of crops.


Potassium hydroxide is used in the following products: washing and cleaning products, cosmetics and personal care products, coating products, pH regulators, water treatment products, perfumes and fragrances.
Potassium hydroxide is Used in machine wash fluids/detergents, automotive care products, paints, coatings or adhesives, fragrances and air fresheners, coolants in refrigerators, oil-based electric heaters, hydraulic fluids in automotive suspension, lubricants in engine oil and brake fluids.


Potassium hydroxide solution is more conductive when compared to NaOH and therefore used as an electrolyte in some alkaline batteries.
Potassium hydroxide is used as a pH control agent in the food industry.
Potassium hydroxide is used in the thickening of food.

Potassium hydroxide is used in chip fabrication for semiconductors.
Potassium hydroxide is used in the manufacturing of cuticle removers which are used in manicure treatment.
Potassium hydroxide is used in the identification of species of fungi.

Potassium hydroxide is used in mercerizing cotton.
Potassium hydroxide is used in alkalimetric titrations in analytical chemistry.
Potassium hydroxide is Used in the manufacturing of liquid fertilisers.

KOH and NaOH can be used interchangeably for a number of applications, although in industry, NaOH is preferred because of its lower cost.

Catalyst for hydrothermal gasification process:
In industry, KOH is a good catalyst for hydrothermal gasification process.
In this process, Potassium hydroxide is used to improve the yield of gas and amount of hydrogen in process.
For example, production of coke (fuel) from coal often produces much coking wastewater.

In order to degrade Potassium hydroxide, supercritical water is used to convert it to the syngas containing carbon monoxide, carbon dioxide, hydrogen and methane.
Using pressure swing adsorption, we could separate various gases and then use power-to-gas technology to convert them to fuel.
On the other hand, the hydrothermal gasification process could degrade other waste such as sewage sludge and waste from food factories.

Precursor to other potassium compounds:
Many potassium salts are prepared by neutralization reactions involving KOH.
The potassium salts of carbonate, cyanide, permanganate, phosphate, and various silicates are prepared by treating either the oxides or the acids with KOH.
The high solubility of potassium phosphate is desirable in fertilizers.

Manufacture of soft soaps:
The saponification of fats with KOH is used to prepare the corresponding "potassium soaps", which are softer than the more common sodium hydroxide-derived soaps.
Because of their softness and greater solubility, potassium soaps require less water to liquefy, and can thus contain more cleaning agent than liquefied sodium soaps.

As an electrolyte:
Aqueous potassium hydroxide is employed as the electrolyte in alkaline batteries based on nickel-cadmium, nickel-hydrogen, and manganese dioxide-zinc.
Potassium hydroxide is preferred over sodium hydroxide because its solutions are more conductive.
The nickel–metal hydride batteries in the Toyota Prius use a mixture of potassium hydroxide and sodium hydroxide.
Nickel–iron batteries also use potassium hydroxide electrolyte.

Food industry:
In food products, potassium hydroxide acts as a food thickener, pH control agent and food stabilizer.
The FDA considers it generally safe as a direct food ingredient when used in accordance with Good Manufacturing Practices.
Potassium hydroxide is known in the E number system as E525.

Niche applications:
Like sodium hydroxide, potassium hydroxide attracts numerous specialized applications, virtually all of which rely on its properties as a strong chemical base with its consequent ability to degrade many materials.
For example, in a process commonly referred to as "chemical cremation" or "resomation", potassium hydroxide hastens the decomposition of soft tissues, both animal and human, to leave behind only the bones and other hard tissues.
Entomologists wishing to study the fine structure of insect anatomy may use a 10% aqueous solution of KOH to apply this process.

In chemical synthesis, the choice between the use of KOH and the use of NaOH is guided by the solubility or keeping quality of the resulting salt.
The corrosive properties of potassium hydroxide make it a useful ingredient in agents and preparations that clean and disinfect surfaces and materials that can themselves resist corrosion by KOH.
KOH is also used for semiconductor chip fabrication (for example anisotropic wet etching).

Potassium hydroxide is often the main active ingredient in chemical "cuticle removers" used in manicure treatments.

Because aggressive bases like KOH damage the cuticle of the hair shaft, potassium hydroxide is used to chemically assist the removal of hair from animal hides.
The hides are soaked for several hours in a solution of KOH and water to prepare them for the unhairing stage of the tanning process.
This same effect is also used to weaken human hair in preparation for shaving.
Preshave products and some shave creams contain potassium hydroxide to force open the hair cuticle and to act as a hygroscopic agent to attract and force water into the hair shaft, causing further damage to the hair.

In this weakened state, the hair is more easily cut by a razor blade.
Potassium hydroxide is used to identify some species of fungi.
A 3–5% aqueous solution of KOH is applied to the flesh of a mushroom and the researcher notes whether or not the color of the flesh changes.
Certain species of gilled mushrooms, boletes, polypores, and lichens are identifiable based on this color-change reaction



CHEMICAL AND PHYSICAL PROPERTIES OF POTASSIUM HYDROXIDE:
Chemical formula KOH
Molar mass 56.11 g mol−1
Appearance white solid, deliquescent
Odor odorless
Density 2.044 g/cm3 (20 °C)
2.12 g/cm3 (25 °C)
Melting point 360 °C (680 °F; 633 K)
Boiling point 1,327 °C (2,421 °F; 1,600 K)
Solubility in water 85 g/100 mL (-23.2 °C)
97 g/100 mL (0 °C)
121 g/100 mL (25 °C)
138.3 g/100 mL (50 °C)
162.9 g/100 mL (100 °C)
Solubility:
soluble in alcohol, glycerol
insoluble in ether, liquid ammonia
Solubility in methanol 55 g/100 g (28 °C)
Solubility in isopropanol ~14 g / 100 g (28 °C)
Acidity (pKa) 14.7
Magnetic susceptibility (χ) −22.0•10−6 cm3/mol
Refractive index (nD) 1.409 (20 °C)
Thermochemistry:
Heat capacity (C) 65.87 J/mol•K
Std molar entropy (S⦵298) 79.32 J/mol•K
Std enthalpy of formation (ΔfH⦵298) -425.8 kJ/mol
Molecular Weight 56.106 g/mol
Hydrogen Bond Donor Count 1
Hydrogen Bond Acceptor Count 1
Rotatable Bond Count 0
Exact Mass
55.96644614 g/mol
Monoisotopic Mass 55.96644614 g/mol
Topological Polar Surface Area 1Ų
Heavy Atom Count 2
Formal Charge 0
Complexity 2
Isotope Atom Count 0
Defined Atom Stereocenter Count 0
Undefined Atom Stereocenter Count 0
Defined Bond Stereocenter Count 0
Undefined Bond Stereocenter Count 0
Covalently-Bonded Unit Count 2
Compound Is Canonicalized Yes
CAS number 1310-58-3
EC index number 019-002-00-8
EC number 215-181-3
Hill Formula HKO
Chemical formula KOH
Molar Mass 56.11 g/mol
HS Code 2815 20 00
Density 2.04 g/cm3 (20 °C)
Melting Point 380 °C
pH value 13.5 (5.6 g/l, H₂O, 25 °C)
Vapor pressure 1 hPa (719 °C)
Solubility 1130 g/l
Assay (acidimetric, KOH) ≥ 85.0 %
Carbonate (as K₂CO₃) ≤ 1.0 %
Chloride (Cl) ≤ 0.01 %
Phosphate (PO₄) ≤ 0.0005 %
Silicate (SiO₂) ≤ 0.005 %
Sulfate (SO₄) ≤ 0.0005 %
Total nitrogen (N) ≤ 0.0005 %
Heavy metals (as Pb) ≤ 0.0005 %
Al (Aluminium) ≤ 0.001 %
Ca (Calcium) ≤ 0.001 %
Cu (Copper) ≤ 0.0002 %
Fe (Iron) ≤ 0.0005 %
Na (Sodium) ≤ 0.5 %
Ni (Nickel) ≤ 0.0005 %
Pb (Lead) ≤ 0.0005 %
Zn (Zinc) ≤ 0.0025 %


SAFETY INFORMATION ABOUT POTASSIUM HYDROXIDE:
First aid measures:
Description of first aid measures:
General advice:
Consult a physician.
Show this safety data sheet to the doctor in attendance.
Move out of dangerous area:

If inhaled:
If breathed in, move person into fresh air.
If not breathing, give artificial respiration.
Consult a physician.
In case of skin contact:
Take off contaminated clothing and shoes immediately.
Wash off with soap and plenty of water.
Consult a physician.

In case of eye contact:
Rinse thoroughly with plenty of water for at least 15 minutes and consult a physician.
Continue rinsing eyes during transport to hospital.

If swallowed:
Do NOT induce vomiting.
Never give anything by mouth to an unconscious person.
Rinse mouth with water.
Consult a physician.

Firefighting measures:
Extinguishing media:
Suitable extinguishing media:
Use water spray, alcohol-resistant foam, dry chemical or carbon dioxide.
Special hazards arising from the substance or mixture
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas

Advice for firefighters:
Wear self-contained breathing apparatus for firefighting if necessary.
Accidental release measures:
Personal precautions, protective equipment and emergency procedures
Use personal protective equipment.

Avoid breathing vapours, mist or gas.
Evacuate personnel to safe areas.

Environmental precautions:
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Methods and materials for containment and cleaning up:
Soak up with inert absorbent material and dispose of as hazardous waste.
Keep in suitable, closed containers for disposal.

Handling and storage:
Precautions for safe handling:
Avoid inhalation of vapour or mist.

Conditions for safe storage, including any incompatibilities:
Keep container tightly closed in a dry and well-ventilated place.
Containers which are opened must be carefully resealed and kept upright to prevent leakage.
Storage class (TRGS 510): 8A: Combustible, corrosive hazardous materials

Exposure controls/personal protection:
Control parameters:
Components with workplace control parameters
Contains no substances with occupational exposure limit values.
Exposure controls:
Appropriate engineering controls:
Handle in accordance with good industrial hygiene and safety practice.
Wash hands before breaks and at the end of workday.

Personal protective equipment:
Eye/face protection:
Tightly fitting safety goggles.
Faceshield (8-inch minimum).
Use equipment for eye protection tested and approved under appropriate government standards such as NIOSH (US) or EN 166(EU).

Skin protection:
Handle with gloves.
Gloves must be inspected prior to use.
Use proper glove
removal technique (without touching glove's outer surface) to avoid skin contact with this product.
Dispose of contaminated gloves after use in accordance with applicable laws and good laboratory practices.
Wash and dry hands.

Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
Splash contact
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
It should not be construed as offering an approval for any specific use scenario.

Body Protection:
Complete suit protecting against chemicals, The type of protective equipment must be selected according to the concentration and amount of the dangerous substance at the specific workplace.
Respiratory protection:
Where risk assessment shows air-purifying respirators are appropriate use a fullface respirator with multi-purpose combination (US) or type ABEK (EN 14387) respirator cartridges as a backup to engineering controls.

If the respirator is the sole means of protection, use a full-face supplied air respirator.
Use respirators and components tested and approved under appropriate government standards such as NIOSH (US) or CEN (EU).
Control of environmental exposure
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Stability and reactivity:
Chemical stability:
Stable under recommended storage conditions.
Incompatible materials:
Strong oxidizing agents:
Hazardous decomposition products:
Hazardous decomposition products formed under fire conditions.
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas.

Disposal considerations:
Waste treatment methods:
Product:
Offer surplus and non-recyclable solutions to a licensed disposal company.
Contact a licensed professional waste disposal service to dispose of this material.
Contaminated packaging:
Dispose of as unused product







SYNONYMS OF POTASSIUM HYDROXIDE:
potassium hydroxide
potassium hydroxide monohydrate
potassium hydroxide tetrahydrate
potassium hydroxide, 39K-labeled
potassium hydroxide, 41K-labeled
POTASSIUM HYDROXIDE
Caustic potash
1310-58-3
Potash lye
Potassium hydrate
Hydroxyde de potassium
Potassa
Potasse caustique
Potassium hydroxide (K(OH))
Caustic-potash
Kali causticum
Caswell No. 693
Cyantek CC 723
potassium;hydroxide
Kaliumhydroxid
Aetzkali
CCRIS 6569
Potassio (idrossido di)
HSDB 1234
Potassium (hydroxyde de)
UNII-WZH3C48M4T
Potassium hydroxide [JAN]
Potasse caustique [French]
EINECS 215-181-3
WZH3C48M4T
MFCD00003553
EPA Pesticide Chemical Code 075602
INS NO.525
Hydroxyde de potassium [French]
CHEBI:32035
INS-525
Potassio (idrossido di) [Italian]
Potassium (hydroxyde de) [French]
UN1813
UN1814
Potassium hydroxide, pellets
Potassium hydroxide [JAN:NF]
DTXSID5029633
E-525
EC 215-181-3
KOH
POTASSIUM HYDROXIDE (II)
POTASSIUM HYDROXIDE [II]
POTASSIUM HYDROXIDE (MART.)
POTASSIUM HYDROXIDE [MART.]
POTASSIUM HYDROXIDE (EP MONOGRAPH)
POTASSIUM HYDROXIDE [EP MONOGRAPH]
Kaliumhydroksid
Kaliumhydroxyde
Atzkali
Kalilauge
Potassium lye
potasio hidroxido
hydroxyl potassium
Lye (potassium)
potasium hydroxide
potassium hydoxide
potassium hydroxid
potassium hyroxide
potassium hydorxide
Potassium-hydroxide
potassium -hydroxide
CPS (CHRIS Code)
PTH (CHRIS Code)
Potassium hydroxide (TN)
Potassium hydroxide, flake
Potassium hydroxide, solid
Potassium hydroxide (ACN)
Potassium hydroxide (KOH)
Potassium Hydroxide, flakes
H-K-O
Potassium Hydroxide (Powder)
KALI CAUSTICUM [HPUS]
Potassium Hydroxide (Pellets)
Potassium hydroxide on alumina
DTXCID209633
CHEMBL2103983
POTASSIUM HYDROXIDE [MI]
Potassium hydroxide (JP17/NF)
POTASSIUM HYDROXIDE [FCC]
KWYUFKZDYYNOTN-UHFFFAOYSA-M
Potassium Hydroxide, powder, ACS
POTASSIUM HYDROXIDE [HSDB]
POTASSIUM HYDROXIDE [INCI]
Potassium hydroxide, p.a., 85%
POTASSIUM HYDROXIDE [VANDF]
NA1813
POTASSIUM HYDROXIDE [WHO-DD]
AKOS015904616
DB11153
LS-3211
Potassium hydroxide, pellet, ACS reagent
29857-72-5
Potassium hydroxide, pellets, ACS reagent
Potassium hydroxide, AR, flakes, >=85%
Potassium hydroxide, LR, flakes, >=85%
Potassium hydroxide, technical grade, 80%
Potassium hydroxide, AR, pellets, >=85%
Potassium hydroxide, LR, pellets, >=85%
FT-0645097
P2844
P2849
POTASSIUM HYDROXIDE REAGENT GRADE 1KG
D01168
Potassium hydroxide, technical, >=85%, lumps
Potassium hydroxide, technical, >=85%, powder
Potassium hydroxide, BioXtra, >=85% KOH basis
Potassium hydroxide, reagent grade, 90%, flakes
Potassium hydroxide, SAJ first grade, >=85.0%
Potassium hydroxide, tested according to Ph.Eur.
Potassium hydroxide, JIS special grade, >=85.0%
Potassium hydroxide, ROTI?Volum, 0,1N (Ampoule)
Potassium hydroxide, solid [UN1813] [Corrosive]
Q132298
J-005928
Potassium hydroxide, ACS reagent, >=85%, pellets
Potassium hydroxide, electronic grade, 50% in H2O
Potassium hydroxide, solid [UN1813] [Corrosive]
Potassium hydroxide solution 10% (wt/v) in methanol
Potassium hydroxide, Vetec(TM) reagent grade, >=85%
Potassium hydroxide, >=85% KOH basis, pellets, white
Base Number (BN) Standard: 6 mg KOH/g in Hydrocarbon Oil
Potassium hydroxide, pellets, Trace Metals Grade 99.95%
Potassium hydroxide, puriss. p.a., >=86% (T), pellets
Acid Number (AN) Standard: 0.1 mg KOH/g in Hydrocarbon Oil
Acid Number (AN) Standard: 0.5 mg KOH/g in Hydrocarbon Oil
Acid Number (AN) Standard: 1.0 mg KOH/g in Hydrocarbon Oil
Acid Number (AN) Standard: 1.5 mg KOH/g in Hydrocarbon Oil
Acid Number (AN) Standard: 2.0 mg KOH/g in Hydrocarbon Oil
Acid Number (AN) Standard: 3.0 mg KOH/g in Hydrocarbon Oil
Base Number (BN) Standard: 10 mg KOH/g in Hydrocarbon Oil
Base Number (BN) Standard: 15 mg KOH/g in Hydrocarbon Oil
Base Number (BN) Standard: 30 mg KOH/g in Hydrocarbon Oil
Base Number (BN) Standard: 40 mg KOH/g in Hydrocarbon Oil
Base Number (BN) Standard: 70 mg KOH/g in Hydrocarbon Oil
Potassium hydroxide, anhydrous, >=99.97% trace metals basis
Potassium hydroxide, puriss. p.a., Reag. Ph. Eur., >=85%, pellets
Potassium hydroxide, semiconductor grade PURANAL(TM) (Honeywell 17851)
Acid Number Standard 0.1 mgKOH/g. Reference materials intended for use in the determination of Acid
Acid Number Standard 0.5 mgKOH/g. Reference materials intended for use in the determination of Acid
Acid Number Standard 1.5 mgKOH/g. Reference materials intended for use in the determination of Acid Number in petroleum products by potentiometric titration (ASTM D664) or color-indicator titration
Acid Number Standard 2 mgKOH/g. Reference materials intended for use in the determination of Acid Nu
Acid Number Standard 3 mgKOH/g. Reference materials intended for use in the determination of Acid Nu
Base Number Standard 10 mgKOH/g. Reference material intended for use in the determination of Base Nu
Potassium hydroxide, puriss., meets analytical specification of Ph. Eur., BP, NF, 85-100.5%, pellets
Potassium hydroxide, semiconductor grade, pellets, 99.99% trace metals basis (Purity excludes sodium content.)



POTASSIUM HYDROXIDE
CAS number: 1310-58-3
EC number: 215-181-3

Potassium Hydroxide is an odorless, white or slightly yellow, flakey or lumpy solid which is often in a water solution.
Potassium hydroxide is used in making soap, as an electrolyte in alkaline batteries and in electroplating, lithography, and paint and varnish removers.
Liquid drain cleaners contain 25 to 36% of Potassium Hydroxide.

Uses of Potassium hydroxide
-Aquafarming, or the farming of aquatic organisms
-Relatived to the maintenance and repair of automobiles, products for cleaning and caring for automobiles (auto shampoo, polish/wax, undercarriage treatment, brake grease)
-Related to food and beverage service activities
-Related to the building or repair of ships, pleasure boats, or sporting boats
-Bricks or related to bricklaying/masonry
-Roofing materials or roofing activities
-Materials used in the building process, such as flooring, insulation, caulk, tile, wood, glass, etc.

Uses of Potassium hydroxide
-Flooring materials (carpets, wood, vinyl flooring), or related to flooring such as wax or polish for floors
-Related to cement, concrete, or asphalt materials
-Wall construction materials, or wall coverings
-Includes preservatives used in cosmetics, film, wood preserving agents, foods, etc
-Casting agents or molding compounds for plastics, sand, or metals

Potassium hydroxide is used in various chemical, industrial and manufacturing applications.
Potassium hydroxide is also a precursor to other potassium compounds.
Potassium hydroxide is used in food to adjust pH, as a stabilizer, and as a thickening agent.
This ingredient has been considered as generally safe as a direct human food ingredient by the FDA, based upon the observance of several good manufacturing practise conditions of use.

Recently, Potassium hydroxide has been studied for efficacy and tolerability in the treatment of warts.
Potassium hydroxide was determined that topical KOH solution was found to be a safe and effective treatment of plane warts solution was found to be a safe and effective treatment of plane warts
Potassium hydroxide is a chemical that comes as a powder, flakes, or pellets.
Potassium hydroxide is commonly known as lye or potash. Potassium hydroxide is a caustic chemical.

Potassium hydroxide is an inorganic compound with the formula KOH and is commonly called caustic potash.
Along with sodium hydroxide (NaOH), Potassium hydroxide is a prototypical strong base.
Potassium hydroxide has many industrial and niche applications, most of which exploit its caustic nature and its reactivity toward acids.
An estimated 700,000 to 800,000 tonnes were produced in 2005. Potassium hydroxide is noteworthy as the precursor to most soft and liquid soaps, as well as numerous potassium-containing chemicals.

IDENTIFICATION AND USE:
Potassium hydroxide (KOH) is commercialized as a solid or as a solution with varying concentrations.
Potassium hydroxide is used in soap manufacture; drain and pipeline cleaners; bleaching agents; manufacture of potassium carbonate and tetra potassium pyrophosphate, an electrolyte in alkaline storage batteries and some fuel cells, absorbent for carbon dioxide and hydrogen sulfide; dyestuffs; liquid fertilizers; food additive; herbicides; electroplating; mercerizing; and paint removers.

Uses of Potassium hydroxide
-Catalyst
-Modifier used for chemical, when chemical is used in a laboratory
-Detergents with wide variety of applications; modifiers included when known
-Related to dishwashing products (soaps, rinsing agents, softeners, etc)
-Products or chemicals found or used in drycleaning establishments
-Products used in an enclosed setting, such as boiler and tank cleansing agents, and drain cleaners

Potassium hydroxide(KOH) is highly basic, forming strongly alkaline solutions in water and other polar solvents.
These solutions are capable of deprotonating many acids, even weak ones.
Potassium hydroxide is used to make soft soap, in scrubbing and cleaning operations, as a mordant for woods, in dyes and colorants, and for absorbing carbon dioxide.
Other principle uses of caustic potash are in the preparation of several potassium salts, acid-base titrations, and in orgainic sytheses.

Also, Potassium hydroxide is an electrolyte in certain alkaline storage batteries and fuel cells.
Potassium hydroxide is used in neutralization reactions to yield potassium salts.
Aqueous potassium hydroxide is employed as the electrolyte in alkaline batteries based on nickel-cadmium and manganese dioxide-zinc.
Alcoholic Potassium hydroxide solutions are also used as an effective method for cleaning glassware.
Potassium hydroxide works well in the manufacture of biodiesel by catalyzing transesterification of the triglycerides in vegetable oil.

USES of Potassium hydroxide
KOH and NaOH can be used interchangeably for a number of applications, although in industry, NaOH is preferred because of its lower cost.

The precursor to other potassium compounds
Many potassium salts are prepared by neutralization reactions involving KOH.
The potassium salts of carbonate, cyanide, permanganate, phosphate and various silicates are prepared by treating either the oxides or the acids with KOH.
The high solubility of potassium phosphate is desirable in fertilizers.

Manufacture of soft soaps
The saponification of fats with KOH is used to prepare the corresponding "potassium soaps", which are softer than the more common sodium hydroxide-derived soaps.
Because of their softness and greater solubility, potassium soaps require less water to liquefy, and can thus contain more cleaning agents than liquefied sodium soaps.

As an electrolyte
Aqueous potassium hydroxide is employed as the electrolyte in alkaline batteries based on nickel-cadmium, nickel-hydrogen, and manganese dioxide-zinc.
Potassium hydroxide is preferred over sodium hydroxide because its solutions are more conductive.
The nickel-metal hydride batteries in the Toyota Prius use a mixture of potassium hydroxide and sodium hydroxide.
Nickel–iron batteries also use potassium hydroxide electrolytes.

Food industry
In food products, potassium hydroxide acts as a food thickener, pH control agent and food stabilizer.
The FDA considers Potassium hydroxide generally safe as a direct food ingredient when used in accordance with Good Manufacturing Practices.
Potassium hydroxide is known in the E number system as E525.

Niche applications
Like sodium hydroxide, potassium hydroxide attracts numerous specialized applications, virtually all of which rely on its properties as a strong chemical base with its consequent ability to degrade many materials.
For example, in a process commonly referred to as "chemical cremation" or "resomation", potassium hydroxide hastens the decomposition of soft tissues, both animal and human, to leave behind only the bones and other hard tissues.
Entomologists wishing to study the fine structure of insect anatomy may use a 10% aqueous solution of Potassium hydroxide to apply this process.

In chemical synthesis, the choice between the use of Potassium hydroxide and the use of NaOH is guided by the solubility or keeping the quality of the resulting salt.
The corrosive properties of potassium hydroxide make it a useful ingredient in agents and preparations that clean and disinfect surfaces and materials that can themselves resist corrosion by Potassium hydroxide.
Potassium hydroxide is also used for semiconductor chip fabrication (for example anisotropic wet etching).
Potassium hydroxide is often the main active ingredient in chemical "cuticle removers" used in manicure treatments.

Because aggressive bases like Potassium hydroxide damage the cuticle of the hair shaft, potassium hydroxide is used to chemically assist the removal of hair from animal hides.
The hides are soaked for several hours in a solution of Potassium hydroxide and water to prepare them for the unhairing stage of the tanning process.
This same effect is also used to weaken human hair in preparation for shaving.
Preshave products and some shave creams contain potassium hydroxide to force open the hair cuticle and to act as a hygroscopic agent to attract and force water into the hair shaft, causing further damage to the hair.
In this weakened state, the hair is more easily cut by a razor blade.

Potassium hydroxide is used to identify some species of fungi.
A 3–5% aqueous solution of Potassium hydroxide is applied to the flesh of a mushroom and the researcher notes whether or not the colour of the flesh changes.
Certain species of gilled mushrooms, boletes, polypores, and lichens are identifiable based on this colour-change reaction.

Potassium hydroxide, also known as lye is an inorganic compound with the chemical formula KOH.
Also commonly referred to as caustic potash, Potassium hydroxide is a potent base that is marketed in several forms including pellets, flakes, and powders.
Potassium hydroxide is used in various chemical, industrial and manufacturing applications.
Potassium hydroxide is also a precursor to other potassium compounds.
Potassium hydroxide is used in food to adjust pH, as a stabilizer, and as a thickening agent.

This ingredient has been considered as generally safe as a direct human food ingredient by the FDA, based upon the observance of several good manufacturing practise conditions of use.
In addition to the above uses, potassium hydroxide is also used in making soap, as an electrolyte in alkaline batteries and in electroplating, lithography, and paint and varnish removers.
Liquid drain cleaners contain 25 to 36% of potassium hydroxide.
Medically, potassium hydroxide (KOH) is widely used in the wet mount preparation of various clinical specimens for microscopic visualization of fungi and fungal elements in skin, hair, nails, and even vaginal secretions.
Recently, Potassium hydroxide has been studied for efficacy and tolerability in the treatment of warts.
Potassium hydroxide was determined that topical Potassium hydroxide solution was found to be a safe and effective treatment of plane warts.

Uses of Potassium hydroxide
-Agent for soaking up liquid
-General adhesives and binding agents for a variety of uses
-Adhesion of molecules to a surface
-Relating to agricultural, including the raising and farming of animals and growing of crops
-Related to animals (but non-veterinary) e.g., animal husbandry, farming of animals/animal production, raising of animals for food or fur, animal feed, products for household pets
-Related to dairy cattle, the operation of dairy facilities, or manufacture of dairy products
-Products used on crops, or related to the growing of crops

Uses of Potassium hydroxide
-Used to prevent adhesion
-Antifreezing agents, or de-icing products
-Anti-incrustator, additional information unknown
-Type of pesticide used to destroy or inhibit the growth of disease-causing mechanisms, can be impregnated into clothing
-Agent to prevent lime formation
-Spray powder used to make air gap between printed sheets of paper
-Antishell, no additional information
-Products used outside the home (includes outdoor toys such as sandboxes, canopies and shelters, garden statues, outdoor lighting and seating, outdoor power equipment, etc

Furniture, or the manufacturing of furniture (can include chairs and tables, and more general furniture such as mattresses, patio furniture, etc.)
Consumer use home grills, for outdoor use, or grill cleaning products
Laundry products (such as cleaning/washing agents), or laundry facilities
Manufacturing of or related to machinery, for production of cement or food, air/spacescraft machinery, electrical machinery, etc
Manufacturing liquid soap; mordant for wood; absorbing CO2; mercerizing cotton; print and varnish removers; electroplating, photoengraving and lithography; printing inks; in analytical chemistry for alkalimetric titrations; in organic synthesis.
Pharmaceutic aid (alkalizer).

Product data and typical properties
Formula: KOH
Molecular weight: 56.1
Specific Gravity (20°C): 1.5 (typical)
Crystallisation temperature: 5°C (approx.)
Appearance: near clear colourless liquid
Assay: % w/w KOH 50.0 ± 1.0
Sodium Hydroxide: % as NaOH <0.8%
Potassium Chloride: % as KCl <0.006%
Potassium Sulphate: % as K2SO4 <0.005%
Iron: % as Fe <0.0005%
Mercury: % as Hg <0.00005%
Heavy Metals: % as Pb <0.0010%

Industry Uses
-Agricultural chemicals (non-pesticidal)
-Bleaching agents
-Cleaning
-Corrosion inhibitors and anti-scaling agents
-Finishing agents
-Food and Beverage Sanitation Chemicals
-Functional fluids (open systems)
-Intermediates
-Ion exchange agents
-Lubricants and lubricant additives
-Oxidizing/reducing agents
-PH Adjuster
-Plasticizers
-Plating agents and surface treating agents
-Process regulators
-Processing aids, not otherwise listed
-Processing aids, specific to petroleum production
-Refining
-Repackaged and sold to various customers; enduse unknown
-Solids separation agents
-Solvents (for cleaning and degreasing)
-Solvents (which become part of product formulation or mixture)
-Surface active agents
-Waste water
-chemical distribution

Properties and structure
Potassium hydroxide exhibits high thermal stability. Because of its high stability and relatively low melting point, Potassium hydroxide is often melt-cast as pellets or rods, forms that have a low surface area and convenient handling properties.
These pellets become tacky in the air because Potassium hydroxide is hygroscopic. Most commercial samples are ca. 90% pure, the remainder being water and carbonates.
Potassium hydroxides dissolution in water is strongly exothermic. Concentrated aqueous solutions are sometimes called potassium lyes. Even at high temperatures, solid Potassium hydroxide does not dehydrate readily.

Manufacture
Historically, KOH was made by adding potassium carbonate to a strong solution of calcium hydroxide (slaked lime).
The salt metathesis reaction results in precipitation of solid calcium carbonate, leaving potassium hydroxide in solution:
Ca(OH)2 + K2CO3 → CaCO3 + 2 KOH
Filtering off the precipitated calcium carbonate and boiling down the solution gives potassium hydroxide ("calcinated or caustic potash").
This method of producing potassium hydroxide remained dominant until the late 19th century when it was largely replaced by the current method of electrolysis of potassium chloride solutions.

The method is analogous to the manufacture of sodium hydroxide (see chloralkali process):
2 KCl + 2 H2O → 2 KOH + Cl2 + H2
Hydrogen gas forms as a byproduct on the cathode; concurrently, anodic oxidation of the chloride ion takes place, forming chlorine gas as a byproduct.
Separation of the anodic and cathodic spaces in the electrolysis cell is essential for this process.

Chemical Properties
Pure potassium hydroxide is a solid at room temperature, though Potassium hydroxide is often sold as a liquid.
Potassium hydroxide is a strong alkaline substance that dissociates completely in water into the potassium ion (K+) and hydroxide ion (OH-).
The dissolution in water generates heat, so a vigorous reaction can occur when potassium hydroxide is added to water.
The vapor pressure of the substance is very low and the melting point is high. Potassium hydroxide solutions attack aluminium and its alloys under formation of hydrogen gas.
Potassium hydroxide can be neutralised with acids (e.g. hydrochloric acid) giving the corresponding potassium salts of the acids, which are usually pH neutral and non-corrosive.

Uses
Potassium hydroxide has many different functions and uses.
Potassium hydroxide is primarily used as an intermediate in industrial manufacturing processes, such as the manufacture of fertilisers, potassium carbonate or other potassium salts and organic chemicals.
Potassium hydroxide is also used in the manufacture of detergents and in alkaline batteries.
Small-scale uses include drain cleaning products, paint removers and degreasing agents.
manufacture of liquid soap;
mordant for wood;
absorbing CO2;
mercerizing cotton;
paint and varnish removers;
electroplating, photoengraving and lithography;
printing inks;
in analytical chemistry and in organic syntheses.
Pharmaceutic aid (alkalizer).

Potassium hydroxide is used in making liquidsoap and potassium salts, in electroplatingand lithography, in printing inks, as a mordantfor wood, and finds wide applications in organic syntheses and chemical analyses.
potassium hydroxide is used as an emulsifier in lotions and as an alkali in liquid soaps, protective creams, and shaving preparations.
Depending on the concentration used, Potassium hydroxide can be highly irritating to the skin and/or cause a burning sensation.
Potassium Hydroxide is a water-soluble food additive and bleaching agent.
Upon exposure to air Potassium hydroxide readily absorbs carbon dioxide and moisture and deliquesces.
Potassium Hydroxide is used to destroy the bitter chemical constituents in olives that will be used as black olives.

Potassium hydroxide solution (KOH aqueous) is a colourless inorganic liquid that acts as a strong base (alkali).
Potassium hydroxide solution is also known as caustic potash or potash lye and has many different applications.
During the Potassium hydroxide liquid production process, chlorine and hydrogen are formed as co-products.

Potassium hydroxide, also known as lye is an inorganic compound with the chemical formula KOH.
Also commonly referred to as caustic potash, Potassium hydroxide is a potent base that is marketed in several forms including pellets, flakes, and powders.
Potassium hydroxide is used in various chemical, industrial and manufacturing applications.
Potassium hydroxide is also a precursor to other potassium compounds.
Potassium hydroxide is used in food to adjust pH, as a stabilizer, and as a thickening agent.
This ingredient has been considered as generally safe as a direct human food ingredient by the FDA, based upon the observance of several good manufacturing practise conditions of use.

In addition to the above uses, potassium hydroxide is also used in making soap, as an electrolyte in alkaline batteries and in electroplating, lithography, and paint and varnish removers.
Liquid drain cleaners contain 25 to 36% of potassium hydroxide.

Recently, Potassium hydroxide has been studied for efficacy and tolerability in the treatment of warts.
Potassium hydroxide was determined that topical Potassium hydroxide, also known as lye is an inorganic compound with the chemical formula KOH.
Also commonly referred to as caustic potash, Potassium hydroxide is a potent base that is marketed in several forms including pellets, flakes, and powders.

General Manufacturing Information
-Industry Processing Sectors
-All other basic inorganic chemical manufacturing
-All other basic organic chemical manufacturing
-All other chemical product and preparation manufacturing
-Computer and electronic product manufacturing
-Electrical equipment, appliance, and component manufacturing
-Fabricated metal product manufacturing
-Food, beverage, and tobacco product manufacturing
-Mining (except oil and gas) and support activities
-Miscellaneous manufacturing
-Nonmetallic mineral product manufacturing (includes clay, glass, cement, concrete, lime, gypsum, and other nonmetallic mineral product manufacturing.
-Oil and gas drilling, extraction, and support activities
-Paper manufacturing
-Pesticide, fertilizer, and other agricultural chemical manufacturing
-Petroleum lubricating oil and grease manufacturing
-Petroleum refineries
-Pharmaceutical and medicine manufacturing
-Photographic film paper, plate, and chemical manufacturing
-Primary metal manufacturing
-Resale of Chemicals
-Services
-Soap, cleaning compound, and toilet preparation manufacturing
-Solar cell manufacturing
-Textiles, apparel, and leather manufacturing
-Utilities
-Wholesale and retail trade
-resale of chemicals
-sales and services to the marine industry

Consumer Uses
Potassium hydroxide is used in the following products: washing & cleaning products, cosmetics and personal care products, coating products, pH regulators and water treatment products and perfumes and fragrances. Another release to the environment of Potassium hydroxide is likely to occur from: indoor use (e.g. machine wash liquids/detergents, automotive care products, paints and coating or adhesives, fragrances and air fresheners), outdoor use, indoor use in close systems with the minimal release (e.g. cooling liquids in refrigerators, oil-based electric heaters) and outdoor use in close systems with the minimal release (e.g. hydraulic liquids in automotive suspension, lubricants in motor oil and brake fluids).

Article service life
Release to the environment of Potassium hydroxide can occur from industrial use: formulation of mixtures and of substances in closed systems with the minimal release.
Another release to the environment of Potassium hydroxide is likely to occur from: indoor use in close systems with the minimal release (e.g. cooling liquids in refrigerators, oil-based electric heaters) and outdoor use in close systems with the minimal release (e.g. hydraulic liquids in automotive suspension, lubricants in motor oil and brake fluids).
Potassium hydroxide can be found in complex articles, with no release intended: electrical batteries and accumulators.

Widespread uses by professional workers
Potassium hydroxide is used in the following products: washing & cleaning products.
Potassium hydroxide is used in the following areas: mining, scientific research and development, health services, agriculture, forestry and fishing, formulation of mixtures and/or re-packaging, building & construction work, printing and recorded media reproduction and municipal supply (e.g. electricity, steam, gas, water) and sewage treatment.
Potassium hydroxide is used for the manufacture of: machinery and vehicles.
Other release to the environment of Potassium hydroxide is likely to occur from: indoor use (e.g. machine wash liquids/detergents, automotive care products, paints and coating or adhesives, fragrances and air fresheners) and outdoor use.

Formulation or re-packing
Potassium hydroxide is used in the following products: pH regulators and water treatment products.
Release to the environment of Potassium hydroxide can occur from industrial use: formulation of mixtures and of substances in closed systems with minimal release.

Uses at industrial sites
Potassium hydroxide is used in the following products: pH regulators and water treatment products.
Potassium hydroxide is used in the following areas: mining, scientific research and development and municipal supply (e.g. electricity, steam, gas, water) and sewage treatment.
Potassium hydroxide is used for the manufacture of: chemicals and metals.
Release to the environment of Potassium hydroxide can occur from industrial use: as processing aid, in processing aids at industrial sites, as an intermediate step in further manufacturing of another substance (use of intermediates), of substances in closed systems with minimal release, in the production of articles and formulation of mixtures.

Manufacture
Release to the environment of Potassium hydroxide can occur from industrial use: manufacturing of the substance.

Consumer Uses
-Agricultural products (non-pesticidal)
-Anti-freeze and de-icing products
-Batteries
-Building/construction materials not covered elsewhere
-C909 the product is used as a cleaner in plating processes. The processes are diverse, examples of final uses are: automotive, machinery, basically all applications of plating.
-Cleaning and furnishing care products
-Electrical and electronic products
-Fabric, textile, and leather products not covered elsewhere
-Floor Care Chemicals
-Fuels and related products
-Laundry and dishwashing products
-Lawn and garden care products
-Lubricants and greases
-Metal processing
-Metal products not covered elsewhere
-Metal stripping, refining, and waste water
-Non-TSCA use
-Photographic supplies, film, and photo chemicals
-Plastic and rubber products not covered elsewhere
-Spent caustic is recycled for use in manufacturing.
-Used as raw material in manufacturing.
-Water treatment products
-chemical distirbution
-used in products which are used as cleaners in plating processes, as paint strippers, used as cleaners used in products for a variety of applications for surface treatments, examples of final uses are automotive and machinery.

SYNONYMS:
POTASSIUM HYDROXIDE; 1310-58-3;
Caustic potash;
Potash lye;
Potassium hydrate;
Hydroxyde de potassium;
Potassium hydroxide (K(OH));
Potasse caustique; Potassium hydroxide solution;
Caustic potash solution;
CHEBI:32035
Potassium hydroxide, pellets;
KOH;
Cyantek CC 723;
Caswell No. 693;
Potasse caustique [French];
Potassium hydroxide, 1N solution in water;
Potassium hydroxide, 1N solution in ethanol;
CCRIS 6569; Hydroxyde de potassium [French];
HSDB 1234; Potassium hydroxide, pure, 8N solution in water;
Potassio (idrossido di);
Potassium hydroxide, ca. 85%, extra pure, flakes;
Potassium (hydroxyde de); EINECS 215-181-3; UN1813; UN1814;
Potassium hydroxide, ca. 85%, ACS reagent, pellets;
Potassium hydroxide, ca. 85%, for analysis, pellets;
EPA Pesticide Chemical Code 075602;
Kaliumhydroxid;
Aetzkali;
Kalilauge; Potassium hydroxide [JAN:NF];
Caustic potasch
Caustic potash
caustic potash
caustic potash
Caustic potash, Potassium hydrate
Hidroxido de potasio
hydroxid draselný
KOH
potasium hydroxide
potassium hydoxide
Potassium hydroxid
POTASSIUM HYDROXIDE
Potassium Hydroxide
Potassium hydroxide
potassium hydroxide
Potassium Hydroxide
Potassium hydroxide
potassium hydroxide
Potassium hydroxide (K(OH))
potassium hydroxide, caustic potash
potassium hydroxide-
potassium hydroxide;
Potassium hydroxyde
Potassium hydroxyde
potassium idroxide
potassium;hydroxide
Pottasium hydroxide
pottassium hydroxide
Reaction mass of 57-13-6 and 7789-20-0
UPV7
POTASSIUM IODATE
cas no 7681-11-0 Hydroiodic acid, potassium salt; Iodide of potash; Potide;
POTASSIUM ISO-OCTANOATE
Potassium iso-octanoate, also known as Octanoic acid, is a chemical used to convert the tert-butylammmonium salt of clavulanic acid into potassium clavulanate (clavulanate potassium).
Potassium iso-octanoate is a Potassium source that is soluble in organic solvents.
Potassium iso-octanoate is one of numerous organo-metallic compounds sold for uses requiring non-aqueous solubility such as recent solar energy and water treatment applications.

CAS Number:764-71-6
EC Number: 212-130-7
Molecular Formula: C8H17KO2
Molecular Weight: 184.32

Potassium iso-octanoate is a salt of caproic acid and potassium that is used as a food additive.
Potassium iso-octanoate can be used to prevent the development of rancidity in oils made with unsaturated fatty acids.
Potassium iso-octanoate has also been shown to have beneficial effects on the heart, such as slowing the heart rate and reducing arrhythmias.

Potassium iso-octanoate has been shown to have physiological effects in humans, including lowering serum cholesterol and triglycerides levels.
Potassium iso-octanoate has also been shown to reduce inflammation by inhibiting prostaglandin synthesis.

Potassium iso-octanoate when combined with cobalt support the accelerating effect in unsaturated polyesters.
This results in a decrease of discoloration of UPS-Systems caused by Cobalt.
Further Potassium iso-octanoate is also capable of stabilizing the rheological and the pot life behavior of waterborne 2- components PUR systems and additionally Potassium iso-octanoate can positively affect the haze-values of these paint systems.

Potassium iso-octanoate, also known as Octanoic acid, is a chemical used to convert the tert-butylammmonium salt of clavulanic acid into potassium clavulanate (clavulanate potassium).
Potassium iso-octanoate is also used as a corrosion inhibitor in automotive antifreeze and as a catalyst for polyurethane systems.

Potassium iso-octanoate is an organic compound of four elements: Carbon, Hydrogen, Potassium, and Oxygen.
The molecular weight of Potassium iso-octanoate is 182.3027 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Carbon, Hydrogen, Potassium, and Oxygen.

To calculate molecular weight of any compound, the first step is to know the constituent elements (atoms) and their number in that particular compound.
Then calculate the total atomic weight of each element by multiplying Potassium iso-octanoate atomic weight by Potassium iso-octanoate number.

The sum of total atomic weight of all constituent elements will be the molecular weight of Potassium iso-octanoate.
Note that the value of atomic weight may differ from different sources.

Potassium iso-octanoate is a Potassium source that is soluble in organic solvents.
Ethylhexanoates are carboxylates with many commercial applications.
They are commonly used in various catalysts for oxidation, hydrogenation and polymerization and as an adhesion promoter.

Potassium iso-octanoate is one of numerous organo-metallic compounds sold for uses requiring non-aqueous solubility such as recent solar energy and water treatment applications.
Similar results can sometimes also be achieved with Nanoparticles and by thin film deposition.

Potassium iso-octanoate is otherwise known as potassium 2-ethylhexanoate.
Potassium iso-octanoate appears as a water white to clear, pale yellow liquid.

Potassium iso-octanoate can be used to promote cobalt soap catalysis and to reduce the dosage of cobalt during the polymerization of polyester resin paint.
The end product will become a light-colored polyester resin.

Potassium iso-octanoate is standard grade potassium-based metal carboxylate with 15% K, diluted in diethylene glycol.
Potassium iso-octanoate is used as co-catalyst to boost cobalt performance and reduce color in unsaturated polyester resins and gelcoats.

Further, Potassium iso-octanoate is also used as liquid trimerization catalyst for polyisocyanurate (PIR) foam.
Catalyst ensures a highly cross-linked polyisocyanurate foam structure, resulting in strong and durable insulation products.

Potassium iso-octanoate is a salt of caproic acid and potassium that is used as a food additive.
Potassium iso-octanoate can be used to prevent the development of rancidity in oils made with unsaturated fatty acids.

Potassium iso-octanoate is used to convert the tert-butylammmonium salt of clavulanic acid into potassium clavulanate or clavulanate potassium.
Potassium iso-octanoate is also used as a catalyst for polyurethane systems (foams) and for unsaturated polyester resin systems.

Potassium iso-octanoate is diethylene glycol solution mainly used as a trimerized catalyst for polyurethanes.
Potassium iso-octanoate offers strong catalysing properties, is odorless, reduces the 'demoulding' time in foams and promotes the 'cross-linking' and 'cure' process.
Potassium iso-octanoate is soluble in water, alcohol and other polar solvents.

Potassium iso-octanoate is an effective promoter with cobalt octoate used in low color applications.
Potassium iso-octanoate is soluble in organic solvents and oils, and Potassium iso-octanoate has a potassium metal content of 15% and a total solids content of 80%.

Potassium iso-octanoate is a potassium catalyst and is widely used in rigid isocyanate foam reaction.
Potassium iso-octanoate is an excellent and cost-effective isocyanate catalyst.
Because of Potassium iso-octanoate high conversion rate, Potassium iso-octanoate has become a catalyst for many rigid foams.

Potassium iso-octanoate exhibits solubility in numerous organic solvents.
Potassium iso-octanoate applications span a wide range of fields, serving as a catalyst in organic synthesis, an electrolyte in batteries, and an additive in lubricants and adhesives.

Moreover, Potassium iso-octanoate finds utility in polymer and plastic production.
In laboratory settings, Potassium iso-octanoate proves invaluable for a diverse array of chemical reactions, encompassing polymer synthesis and catalyst preparation.

An excellent candidate to consider for manufacturing polyisocyanurate rigid foam, Potassium iso-octanoate may be used in formulated systems or by direct metering.
Potassium iso-octanoate also can improve the foam isotropy for more dimensional stability and compressive strength.

Potassium iso-octanoate offers several advantages compared to other Niax catalyst K-Zero G additive catalysts.
In addition to minimizing the amount of isocyanate consumed, Potassium iso-octanoate also has a lower viscosity than typical Potassium iso-octanoate in DEG, which can improve both pumping and handling.

Potassium iso-octanoate has no odor and is not classified as flammable.
Potassium iso-octanoate also offers better formulation flexibility with Potassium iso-octanoate ability to raise the NCO index at a constant isocyanate-to-polyol rate.

Potassium iso-octanoate typically requires the same dosage level as the commonly used Niax catalyst K-Zero G additives it may replace.
In addition, Potassium iso-octanoate water content is essentially identical to the typical Niax catalyst K-Zero G additives, so MDI consumption is not significant.

Potassium iso-octanoate is a salt of caproic acid and potassium that is used as a food additive.
Potassium iso-octanoate can be used to prevent the development of rancidity in oils made with unsaturated fatty acids.
Potassium iso-octanoate has also been shown to have beneficial effects on the heart, such as slowing the heart rate and reducing arrhythmias.

Potassium iso-octanoate has been shown to have physiological effects in humans, including lowering serum cholesterol and triglycerides levels.
Potassium iso-octanoate has also been shown to reduce inflammation by inhibiting prostaglandin synthesis.

Potassium iso-octanoate Market Analysis:
Global Potassium iso-octanoate Market Report 2023 talks about crucial market insights with the help of segments and sub-segments analysis.
In this section, we reveal an in-depth analysis of the key factors influencing Potassium iso-octanoate Industry growth.

Potassium iso-octanoate market has been segmented with the help of Potassium iso-octanoate Type, Application , and others.
Potassium iso-octanoate market analysis helps to understand key industry segments, and their global, regional, and country-level insights.

Furthermore, this analysis also provides information pertaining to segments that are going to be most lucrative in the near future and their expected growth rate and future market opportunities.
The report also provides detailed insights into factors responsible for the positive or negative growth of each industry segment.

Type Segment Analysis of Potassium iso-octanoate Market:
Quality management is the major parameter to meet specific standards and specifications, reliability and consistency.
The chemical and material industry is full of various types of chemicals and Potassium iso-octanoate is necessary to focus on quality management because Potassium iso-octanoate may affect environment & other equipment.

Raw materials plays an important role in this industry.
The chemical industry converts these raw materials into primary, secondary, and tertiary products.

Fluctuations in raw material prices may impact the market growth in the near future.
This study includes the revenue generation of each type in each region for the year 2018 to 2030.
Additionally Potassium iso-octanoate also provides detailed supply chain analysis along with current trends in the market which are expected to propel the market growth in the coming year.

Application Segment Analysis of Potassium iso-octanoate Market:
Chemical and materials are one of the most important industries for other sectors including automotive, pharmaceutical, personal care, consumer goods and others.
The demand for high quality and environment friendly products is increasing in various end-use sectors.

Thus, key manufacturers are focusing on technological advancement in production of high-quality chemicals.
The segment analysis will help to understand which is the most attractive application/end use sector.

Potassium iso-octanoate also provides the year on year (Y-O-Y) growth rate for each segment.
Moreover, this study includes the detailed analysis of each segment to understand the key positive and negative factors which are impacting the growth of the Potassium iso-octanoate Market.

Some of the key Application of Potassium iso-octanoate are:
Dryer
Resin Catalyst
Fragrance & Flavor
Other

Applications of Potassium iso-octanoate:

Catalyst:
Potassium iso-octanoate is co-catalyst to boost cobalt performance in unsaturated polyester resins and gelcoats.
Potassium iso-octanoate is trimerization catalyst for polyisocyanurate foam.

Uses of Potassium iso-octanoate:
Potassium iso-octanoate can be used to promote cobalt soap catalysis and to reduce the dosage of cobalt during the polymerization of polyester resin paint.
Potassium iso-octanoate is used as co-catalyst to boost cobalt performance and reduce color in unsaturated polyester resins and gelcoats.

Industry Uses:
Cleaning agent
Corrosion inhibitor
Drier
Lubricating agent
Surface modifier
Surfactant (surface active agent)

Consumer Use:
Drier

Usage of Potassium iso-octanoate:
Potassium iso-octanoate is mainly used as salt-forming agent of potassium clavulanate, salt-forming agent of synthesizing cephalosporin antibiotics, cross-linking agent of macromolecule materials, heat stabilizer of plastic products, catalyst of polymerization, additive of lubricating oil and fuel oil, and can also be used in the fields of dyestuff, perfume and preservative.
Potassium iso-octanoate is mainly used as a salt forming agent for the synthesis of cephalosporin antibiotic potassium clavulanate, a heat stabilizer for plastic products, a catalyst for polymerization, and a crosslinking agent for polymer materials.

General Manufacturing Information of Potassium iso-octanoate:

Industry Processing Sectors:
Fabricated Metal Product Manufacturing
Paint and Coating Manufacturing
Soap, Cleaning Compound, and Toilet Preparation Manufacturing

Handling and Storage of Potassium iso-octanoate:
The use of Potassium iso-octanoate requires technical and professional knowledge.
For further information on handling, storage and toxicity consult the safety data sheet.
Potassium iso-octanoate must always be stored sealed, in a cool, ventilated place, protected from atmospheric agents.

Packaging:
The standard packaging of Potassium iso-octanoate is in 1000 kg IBCs.

Stability and Reactivity of Potassium iso-octanoate:

Chemical stability:

Thermal decomposition / conditions to be avoided:
No decomposition if used according to specifications.

Incompatible materials:
No further relevant information available.

Hazardous decomposition products:
No dangerous decomposition products known.

Safety of Potassium iso-octanoate:

H Statements:

H315:
Causes skin irritation.

H319:
Causes serious eye irritation.

H335:
May cause respiratory irritation.

P Statements:

P158:
P158

P261:
Avoid breathing dust, fumes, gas, mist, vapours, spray.

P280:
Wear protective gloves/protective clothing/eye protection/face protection.

P302+P352:

IF ON SKIN:
Wash with plenty of soap and water.

P304+P340:

IF INHALED:
Remove person to fresh air and keep comfortable for breathing.

P305+P351+P338:

IF IN EYES:
Rinse cautiously with water for several minutes.
Remove contact lenses if present and easy to do.
Continue rinsing.

P403+P233:
Store in a well ventilated place.
Keep container tightly closed.

P501:
Dispose of contents/container in accordance with local/regional/national/international regulations.

Fire Fighting Procedures of Potassium iso-octanoate:

If material on fire or involved in fire:
Use water in flooding quantities as fog.
Solid streams of water may be ineffective.

Cool all affected containers with flooding quantities of water.
Apply water from as far a distance as possible.
Use "alcohol" foam, dry chemical or carbon dioxide. Use water spray to knock-down vapors.

Cleanup Methods of Potassium iso-octanoate:

Environmental considerations:

Land spill:
Dig a pit, pond, lagoon, holding area to contain liquid or solid material.
If time permits, pits, ponds, lagoons, soak holes, or holding areas should be sealed with an impermeable flexible membrane liner.

Dike surface flow using soil, sand bags, foamed polyurethane, or foamed concrete.
Neutralize with agricultural lime (CaO), crushed limestone (CaCO3) or sodium bicarbonate (NaHCO3).
Absorb bulk liquid with fly ash, cement powder, or commercial sorbents.

Water spill:
Use natural barriers or oil spill control booms to limit spill travel.
Neutralize with agricultural lime (CaO), crushed limestone (CaCO3) or sodium bicarbonate (NaHCO3).
Use mechanical dredges or lifts to remove immobilized masses of pollutants and precipitates.

Air spill:
Apply water spray or mist to knock down vapors.
Vapor knockdown water is corrosive or toxic and should be diked for containment.

ENVIRONMENTAL HAZARDS (5 gallons or greater):
Do not discharge effluent containing Potassium iso-octanoate into lakes, streams, ponds, estuaries, oceans, or other waters unless in accordance with the requirements of a National Pollutant Discharge Elimination System (NPDES) permit and permitting authority has been notified in writing prior to discharge.
Do not discharge effluent containing Potassium iso-octanoate to sewer systems without previously notifying the local sewage treatment plant authority.

Disposal Methods of Potassium iso-octanoate:
The most favorable course of action is to use an alternative chemical product with less inherent propensity for occupational exposure or environmental contamination.
Recycle any unused portion of Potassium iso-octanoate for Potassium iso-octanoate approved use or return Potassium iso-octanoate to the manufacturer or supplier.

Ultimate disposal of the chemical must consider:
Potassium iso-octanoate's impact on air quality; potential migration in soil or water; effects on animal, aquatic, and plant life; and conformance with environmental and public health regulations.

For containers less than 1 gallon:
Do not reuse container.
Wrap container and discard in the trash. (1 gal. bladder in box) Remove empty bladder from outer corrugated box.
Do not reuse bladder. Wrap bladder and box and put in trash.

Pesticide Disposal:
Pesticide wastes are acutely hazardous.
Improper disposal of excess pesticide, spray mixture, or rinsate is a violation of Federal Law.
If these wastes cannot be disposed of by use according to label instructions, contact your State Pesticide or Environmental Control Agency, or the Hazardous Waste Representative at the nearest EPA Regional Office for guidance.

Container Disposal:
Triple rinse (or equivalent).
Then offer for recycling or reconditioning, or puncture and dispose of in sanitary landfill, or incineration, or if allowed by state and local authorities, by burning.

If burned, stay out of smoke:
Remove empty bladder from outer corrugated box.
Triple rinse bladder (or equivalent).
Offer box and bladder for recycling or dispose of in a sanitary landfill or incineraVon, or if allowed by state and local authorities, by burning.

Identifiers of Potassium iso-octanoate:
EC / List no.: 212-130-7
CAS no.: 764-71-6
Mol. formula: C8H16O2.K

CAS No.: 764-71-6
Chemical Name: Potassium iso-octanoate
CBNumber: CB9106938
Molecular Formula: C8H17KO2
Molecular Weight: 184.32
MDL Number: MFCD00801112
MOL File: 764-71-6.mol

Formula: C8H15KO2
InChI: InChI=1S/C8H16O2.K/c1-2-3-4-5-6-7-8(9)10;/h2-7H2,1H3,(H,9,10);
InChI key: InChIKey=NEDCBCQYSIPIMC-UHFFFAOYSA-N
SMILES: [K].O=C(O)CCCCCCC

Product Name: Potassium iso-octanoate
CAS: 764-71-6
EICNECS: 212-130-7
Formula: C8H15KO2
Synonyms: Potassium Octanoate, Octanoic acid, Potassium Salt (1:1)
Suggested Industries: Construction & Building Materials

IUPAC Traditional: potassium octanoate
Molecular formula: C8H15KO2
Molecular weight: 182.304
SMILES: [K+].CCCCCCCC([O-])=O
Compound number: Molport-006-112-319

Linear Formula: K[OOCCH(C2H5)C4H9]
MDL Number: MFCD00045896
EC No.: 221-625-7
Beilstein/Reaxys No.: N/A
Pubchem CID: 23669619
IUPAC Name: potassium 2-ethylhexanoate
SMILES: [K+].[O-]C(=O)C(CC)CCCC
InchI Identifier: InChI=1S/C8H16O2.K/c1-3-5-6-7(4-2)8(9)10;/h7H,3-6H2,1-2H3,(H,9,10);/q;+1/p-1
InchI Key: ZUFQCVZBBNZMKD-UHFFFAOYSA-M

CAS Number: 3164-85-0
ChemSpider: 56266
ECHA InfoCard: 100.019.660
EC Number: 221-625-7
PubChem CID: 62486
UNII: P089X9A38X
CompTox Dashboard (EPA): DTXSID4027525
InChI: InChI=1S/C8H16O2.K/c1-3-5-6-7(4-2)8(9)10;/h7H,3-6H2,1-2H3,(H,9,10);/q;+1/p-1
Key: ZUFQCVZBBNZMKD-UHFFFAOYSA-M
InChI=1/C8H16O2.K/c1-3-5-6-7(4-2)8(9)10;/h7H,3-6H2,1-2H3,(H,9,10);/q;+1/p-1
Key: ZUFQCVZBBNZMKD-REWHXWOFAE
SMILES: [K+].[O-]C(=O)C(CC)CCCC

Properties of Potassium iso-octanoate:
Chemical formula: C8H15KO2
Molar mass: 182.304 g·mol−1

Molecular weight: 183.31 g/mol
Formula: C8H16O2•K
Purity: Min. 95%
Color/Form: Powder
MDL: MFCD00801112
HS code: 2915907098

Appearance: Liquid
Color Clear: Yellow
Content of Potassium iso-octanoate, % 75: ± 3
Viscosity @ 25°C, mPa s: 3500 - 4500
OH number, mg KOH / g (calculated): 470
Water content, %: 3.2 - 3.7

Molecular Weight: 182.30 g/mol
Hydrogen Bond Donor Count: 0
Hydrogen Bond Acceptor Count: 2
Rotatable Bond Count: 6
Exact Mass: 182.07091120 g/mol
Monoisotopic Mass: 182.07091120 g/mol
Topological Polar Surface Area: 40.1Ų
Heavy Atom Count: 11
Complexity: 94.1
Isotope Atom Count: 0
Defined Atom Stereocenter Count: 0
Undefined Atom Stereocenter Count: 0
Defined Bond Stereocenter Count: 0
Undefined Bond Stereocenter Count: 0
Covalently-Bonded Unit Count: 2
Compound Is Canonicalized: Yes

Specifications of Potassium iso-octanoate:
Appearance: Liquid
Color: Yellow-orange
Metal Content: 15% potassium
Solvent: Diethylene glycol
Typical Viscosity (mPa.s, rt): 5 000
Viscosity 25°C (dPa.s): 50,5
Water Content (wt %): 4
Concentration (wt %): 71
OH Value (mg KOH/g): 254

Color: White
Quantity: 25 g
Formula Weight: 182.30
Percent Purity: ≥95.0% (T)
Physical Form: Crystalline Lumps
Chemical Name or Material: Potassium 2-Ethylhexanoate

Complementary Products of Potassium iso-octanoate:

Similar products that may enhance results or work well together:
Niax Silicone L-6633
Niax Catalyst A-1
Niax Catalyst C-41

Names of Potassium iso-octanoate:

Regulatory process names:
Caprylic acid, potassium salt
Octanoic acid, potassium salt
Octanoic acid, potassium salt (1:1)
Potassium caprylate
Potassium octanoate
Potassium octanoate
potassium octanoate

IUPAC names:
Octanoic acid, potassium salt
potassium caprylate ou octanoate
Potassium octanoate
potassium octanoate
potassium octanoic acid
Potassium Octoate
potassium;octanoate
Potassium 2-ethylhexanoate

Other identifiers:
146837-11-8
764-71-6

Synonyms of Potassium iso-octanoate:
Potassium octanoate
764-71-6
Potassium caprylate
Potassium octoate
potassium;octanoate
EINECS 212-130-7
Octanoic acid, potassium salt (1:1)
UNII-7CND0TX59N
7CND0TX59N
Caprylic acid, potassium salt
OCTANOIC ACID, POTASSIUM SALT
potassium n-octanoate
potassium octylate
SCHEMBL26223
CHEMBL3894810
DTXSID9052507
POTASSIUM CAPRYLATE [INCI]
CAPRYLIC ACID POTASSIUM SALT
EC 686
AKOS006220435
K 977
Q27268087
221-625-7 [EINECS]
2-Éthylhexanoate de potassium [French] [ACD/IUPAC Name]
2-Ethylhexanoic acid, potassium salt
3164-85-0 [RN]
Hexanoic acid, 2-ethyl-, potassium salt
Hexanoic acid, 2-ethyl-, potassium salt (1:1) [ACD/Index Name]
Kalium-2-ethylhexanoat [German] [ACD/IUPAC Name]
Potassium 2-ethylhexanoate [ACD/IUPAC Name]
[3164-85-0] [RN]
19766-89-3 [RN]
2-ETHYLHEXANOIC ACID POTASSIUM SALT
2-ETHYLHEXANOIC ACID POTASSIUM SALT, ANHYDROUS
764-71-6 [RN]
93357-97-2 [RN]
MFCD00045896 [MDL number]
MFCD00801112
Potassium 2-ethyl hexanoate
potassium and 2-ethylhexanoate
Potassium octoate
Potassium octoate/Potassium acetate
potassium2-ethylhexanoate
POTASSIUM-2-ETHYLHEXANOATE
POTASSIUMOCTOATE
POTASSIUM ISOSTEARATE
Lactic acid, monopotassium salt; Lactic acid, potassium salt; Monopotassium 2-hydroxypropanoate; Monopotassium 2-hydroxypropanoate acid; Monopotassium lactate; Potassium alpha-hydroxypropionate; Potassium DL-lactate; Potassium lactate; Propanoic acid, 2-hydroxy-, monopotassium salt; Propanoic acid, 2-hydroxy-, potassium salt (1:1); : potassium 2-hydroxypropanoate; potassium;2-hydroxypropanoate; POTASSIUM LACTATE, N° CAS : 996-31-6 / 85895-78-9 - Lactate de potassium. Nom INCI : POTASSIUM LACTATE. Nom chimique : Potassium lactate. N° EINECS/ELINCS : 213-631-3 / 288-752-8. Additif alimentaire : E326. Ses fonctions (INCI). Régulateur de pH : Stabilise le pH des cosmétiques. Humectant : Maintient la teneur en eau d'un cosmétique dans son emballage et sur la peau.Agent d'entretien de la peau : Maintient la peau en bon état. Noms français : 2-HYDROXYPROPANOATE POTASSIUM; 2-HYDROXYPROPANOIC ACID POTASSIUM SALT; HYDROXY-2 PROPANOATE DE POTASSIUM; Lactate de potassium; PROPANOIC ACID, 2-HYDROXY-, MONOPOTASSIUM SALT. Noms anglais : LACTIC ACID MONOPOTASSIUM SALT; LACTIC ACID, MONOPOTASSIUM SALT; LACTIC ACID, POTASSIUM SALT; Potassium lactate. Utilisation et sources d'émission: Fabrication de cosmétiques. Conclyte K ; Potassium DL-lactate 213-631-3 [EINECS] 276897E67U 2-Hydroxypropanoate de potassium [French] [ACD/IUPAC Name] 996-31-6 [RN] DL-potassium lactate Kalium-2-hydroxypropanoat [German] [ACD/IUPAC Name] Lactic acid, monopotassium salt Lactic acid, potassium salt Monopotassium 2-hydroxypropanoate Monopotassium lactate Potassium 2-hydroxypropanoate [ACD/IUPAC Name] Potassium lactate [Wiki] POTASSIUM LACTATE, DL- POTASSIUM LACTATE, L- Potassium α-hydroxypropionate Propanoic acid, 2-hydroxy-, potassium salt (1:1) [ACD/Index Name] UNII:276897E67U [996-31-6] 288-752-8 [EINECS] 31981-04-1 [RN] 85895-78-9 [RN] 996-31-6? Conclyte K MFCD00036410 MFCD00080809 Monopotassium 2-hydroxypropanoate acid Potassium L- lactate Potassium Lactate 60% POTASSIUM LACTATE|POTASSIUM 2-HYDROXYPROPANOATE potassiumlactate PotassiumL-lactate Propanoic acid, 2-hydroxy-, monopotassium salt
POTASSIUM LACTATE ( Lactate de potassium)
POTASSIUM LAURATE, N° CAS : 10124-65-9, Nom INCI : POTASSIUM LAURATE. Nom chimique : Potassium laurate. N° EINECS/ELINCS : 233-344-7. Compatible Bio (Référentiel COSMOS), Ses fonctions (INCI). Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile). Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation
POTASSIUM LAURATE
POTASSIUM LAURYL SULFATE, N° CAS : 4706-78-9. Nom INCI : POTASSIUM LAURYL SULFATE. Nom chimique : Potassium dodecyl sulphate, N° EINECS/ELINCS : 225-190-4, Classification : Sulfate. Ses fonctions (INCI): Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile): Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation
POTASSIUM LAURYL SULFATE
Potassium peroxysulfate; potassium monopersulfate; hydrogénopersulfate de potassium; peroxymonosulfate de potassium; monopersulfate de potassium; MPS ; Bis(peroxysulfate) bis(sulfate) pentapotassique; Potassium hydrogen peroxymonosulfate; Potassium peroxymonosulfate sulfate (K5H3(SO3(O2))2(SO4)2)POTASSIUM MONOPERSULFATE, N° CAS : 70693-62-8. Nom INCI : POTASSIUM MONOPERSULFATE. Nom chimique : Pentapotassium bis(peroxymonosulphate) bis(sulphate). N°, EINECS/ELINCS : 274-778-7. Classification : Sulfate; Bis(peroksymonosiarczano) bis(siarczan) pentapotasu (pl); Bis(perossimonosolfato)bis(solfato) di pentapotassio (it); Bis(perossimonosulfat) tal-pentapotassju bis(sulfat) (mt); bis(Peroximonossulfato)bis(sulfato) de pentapotássio (pt); Bis(peroximonosulfat) bis(sulfat) de pentapotasiu (ro); Bis(peroximonosulfato) bis(sulfato) de pentapotasio (es); bis(peroxosíran)-bis(síran) pentadraselný (cs); Bis(peroxymonosulfate)bis(sulfate) de pentapotassium (fr); hydrogenperoxosíran-bissíran pentadraselný (sk); Pentakaaliumbis(peroksümonosulfaat)bis(sulfaat) (et); Pentakalijev bis(peroksimonosulfat) bis(sulfat) (hr); Pentakalio bis(peroksimonosulfatas)bis(sulfatas) (lt); pentakalium-bis(peroxymonosulfat)-bis(sulfat) (da); Pentakaliumbis(peroksimonosulfaatti)bis(sulfaatti) (fi); Pentakaliumbis(peroximonosulfat)bis(sulfat) (sv); Pentakaliumbis(peroxymonosulfaat)bis(sulfaat) (nl); Pentakálium-bisz(peroximonoszulfát)-bisz(szulfát) (hu); Pentakālija bis(peroksimonosulfāts) bis(sulfāts) (lv); Pentapotassium bis(peroxymonosulphate) bis(sulphate) (no); Όξινο μονοϋπερθειικό θειικό κάλιο (el); Пентакалиев бис(пероксимоносулфат) бис(сулфат) (bg). CAS names: Potassium peroxymonosulfate sulfate (K5[HSO3(O2)][SO3(O2)](HSO4)2). : KMPS triple salt; pentapotassium bis((hydroperoxysulfonyl)oxidanide) hydrogen sulfate sulfate; pentapotassium bis(O-(hydroperoxysulfonyl)oxidanidolate) hydrogen sulfate sulfate; Potassium peroxymonosulfate; potassiummonopersulfat. Caroat; Kybreak; Oxone; Virkon S. Potassium peroxymonosulfate (also known as MPS, potassium monopersulfate, potassium caroate, and as non-chlorine shock in the pool and spa industry) is widely used as an oxidizing agent. It is the potassium salt of peroxymonosulfuric acid.