TEXAPON N 40 IS
TEXAPON N 40 IS
CAS No. : 15826-16-1
EC No. : 239-925-1
Synonyms:
Sodium laureth sulfate; Cycloryl NA; Maprofix ES; Rhodapex ESY; Empimin KSN; Conco Sulfate WE; Sipon ES; Retzolate 60; Sipon ESY; Standapol ES 2; Standapol ES-3; Maprofix 60S; Empicol ESB 3; Rewopol NL-2; Texapon N40; Zetesol LES 2; Dodecyl sodium ethoxysulfate; Empicol ESB 30; Empimin KSN 27; Empimin KSN 60; Empimin KSN 70; 15826-16-1; Avirol 100E; Sipon LES 25; Elfan 242; Elfan NS 242; Elfan NS 243; 9004-82-4; Sodium laureth-5 sulfate; Sodium laureth-8 sulfate; Sodium dodeceth-1 sulfate; 2-(Dodecyloxy)ethyl sodium sulfate; Etoxon EPA; Sodium lauryl ethoxysulphate; Sodium 2-(dodecyloxy)ethyl sulphate; Sodium lauryl oxyethyl sulfate; HSDB 752; Sodium lauryl sulfate ethoxylate; Sodium lauryl polyoxyethylene ether sulfate; Sodium 2-(lauryloxy)ethyl sulfate; Sodium 2-(dodecyloxy)ethyl sulfate; Ethanol, 2-(dodecyloxy)-, hydrogen sulfate, sodium salt; Sodium laureth-7 sulfate; EINECS 239-925-1; Sodium laureth-12 sulfate; Sodium laurylpoly(oxyethylene) sulfate; Sodium (lauryloxypolyethoxy)ethyl sulfate; Sodium poly(oxyethylene) lauryl ether sulfate; SODIUM DODECYLPOLY(OXYETHYLENE) SULFATE; Sodium polyoxyethylene (8) sulfate; 2-(Dodecyloxy)ethanol hydrogen sulfate sodium salt; Laureth-8 carboxylic acid, sodium salt; Polyethylene glycol sulfate monododecyl ether sodium salt; Sodium polyethylene glycol 400 sulfate; Polyethylene glycol (7) lauryl ether sulfate, sodium salt; PEG-5 Lauryl ether sulfate, sodium salt; PEG-7 Lauryl ether sulfate, sodium salt; PEG-8 Lauryl ether sulfate, sodium salt; PEG-12 Lauryl ether sulfate, sodium salt; alpha-Sulfo-omega-(dodecyloxy)poly(oxy-1,2-ethanediyl) sodium salt; Poly(oxy-1,2-ethanediyl), alpha-sulfo-omega-(dodecyloxy)-, sodium salt; Glycols, polyethylene, mono(hydrogen sulfate), dodecyl ether, sodium salt; Sodium polyoxyethylene (5) lauryl ether sulfate; Sodium polyoxyethylene (7) lauryl ether sulfate; Sodium polyoxyethylene (12) lauryl ether sulfate; Sodium polyethylene glycol (5) lauryl ether sulfate; Sodium polyethylene glycol (7) lauryl ether sulfate; Sodium polyethylene glycol 600 lauryl ether sulfate; Polyoxyethylene (5) lauryl ether sulfate, sodium salt; Polyoxyethylene (7) lauryl ether sulfate, sodium salt; Polyoxyethylene (8) lauryl ether sulfate, sodium salt; Polyoxyethylene (12) lauryl ether sulfate, sodium salt; Polyethylene glycol (5) lauryl ether sulfate, sodium salt; Polyethylene glycol 400 lauryl ether sulfate, sodium salt; Polyethylene glycol 600 lauryl ether sulfate, sodium salt; Dodecanol, ethoxylated, monoether with sulfuric acid, sodium salt; Ethanol, 2-(dodecyloxy)-, 1-(hydrogen sulfate), sodium salt (1:1); Steol CS-460; UNII-410Q7WN1BX; DSSTox_CID_9298; DSSTox_RID_78753; DSSTox_GSID_29298; C14H29O5S.Na; SCHEMBL675596; 410Q7WN1BX; CHEMBL3183840; CTK3I7573; DTXSID70274019; Sodium dodecylmonooxyethylene sulfate; Tox21_302374; Poly(oxy-1,2-ethanediyl), .alpha.-sulfo-.omega.-(dodecyloxy)-, sodium salt; sodium dodecylmono(oxyethylene) sulfate; sodium 1-(2-sulfonatooxyethoxy)dodecane; NCGC00255215-01; LS-66742; LS-68569; O192; CAS-9004-82-4; FT-0699797; Sodium Lauryl Ether Sulfate, 1 Mole of E.O.; Ethanol, 2-(dodecyloxy)-, sulfate, sodium salt; Ethanol, 2-(dodecyloxy)-, sulfate, sodium salt (7CI); Alpha-sulfo-omega-(dodecyloxy)-poly(oxyethylene) sodium salt; Alpha-sulfo-omega-(dodecyloxy)-poly(oxy-1,2-ethanediyl) sodium salt; Ethanol,2-(dodecyloxy)-, 1-(hydrogen sulfate), sodium salt (1:1); Poly(oxy-1,2-ethanediyl), alpha-sulfo-omega-(dodecyloxy)-, sodium salt (1:1); 95508-27-3; teksapon; tekzapon; texapon; teksapon n 40; tekzapon n40; texapon n40; teksapon n 40 s; tekzapon n 40 s; texapon n 40 s; TEKSAPON; TEKZAPON; TEXAPON; TEKSAPON N 40; TEKZAPON N 40; TEXAPON N 40; TEKSAPON N 40 IS; TEKZAPON N 40 IS; TAXAPON N 40 IS; Sodium laureth sulfate; Cycloryl NA; Maprofix ES; Rhodapex ESY; Empimin KSN; Conco Sulfate WE; Sipon ES; Retzolate 60; Sipon ESY; Standapol ES 2; Standapol ES-3; Maprofix 60S; Empicol ESB 3; Rewopol NL-2; Texapon N40; Zetesol LES 2; Dodecyl sodium ethoxysulfate; Empicol ESB 30; Empimin KSN 27; Empimin KSN 60; Empimin KSN 70; 15826-16-1; Avirol 100E; Sipon LES 25; Elfan 242; Elfan NS 242; Elfan NS 243; 9004-82-4; Sodium laureth-5 sulfate; Sodium laureth-8 sulfate; Sodium dodeceth-1 sulfate; 2-(Dodecyloxy)ethyl sodium sulfate; Etoxon EPA; Sodium lauryl ethoxysulphate; Sodium 2-(dodecyloxy)ethyl sulphate; Sodium lauryl oxyethyl sulfate; HSDB 752; Sodium lauryl sulfate ethoxylate; Sodium lauryl polyoxyethylene ether sulfate; Sodium 2-(lauryloxy)ethyl sulfate; Sodium 2-(dodecyloxy)ethyl sulfate; Ethanol, 2-(dodecyloxy)-, hydrogen sulfate, sodium salt; Sodium laureth-7 sulfate; EINECS 239-925-1; Sodium laureth-12 sulfate; Sodium laurylpoly(oxyethylene) sulfate; Sodium (lauryloxypolyethoxy)ethyl sulfate; Sodium poly(oxyethylene) lauryl ether sulfate; SODIUM DODECYLPOLY(OXYETHYLENE) SULFATE; Sodium polyoxyethylene (8) sulfate; 2-(Dodecyloxy)ethanol hydrogen sulfate sodium salt; Laureth-8 carboxylic acid, sodium salt; Polyethylene glycol sulfate monododecyl ether sodium salt; Sodium polyethylene glycol 400 sulfate; Polyethylene glycol (7) lauryl ether sulfate, sodium salt; PEG-5 Lauryl ether sulfate, sodium salt; PEG-7 Lauryl ether sulfate, sodium salt; PEG-8 Lauryl ether sulfate, sodium salt; PEG-12 Lauryl ether sulfate, sodium salt; alpha-Sulfo-omega-(dodecyloxy)poly(oxy-1,2-ethanediyl) sodium salt; Poly(oxy-1,2-ethanediyl), alpha-sulfo-omega-(dodecyloxy)-, sodium salt; Glycols, polyethylene, mono(hydrogen sulfate), dodecyl ether, sodium salt; Sodium polyoxyethylene (5) lauryl ether sulfate; Sodium polyoxyethylene (7) lauryl ether sulfate; Sodium polyoxyethylene (12) lauryl ether sulfate; Sodium polyethylene glycol (5) lauryl ether sulfate; Sodium polyethylene glycol (7) lauryl ether sulfate; Sodium polyethylene glycol 600 lauryl ether sulfate; Polyoxyethylene (5) lauryl ether sulfate, sodium salt; Polyoxyethylene (7) lauryl ether sulfate, sodium salt; Polyoxyethylene (8) lauryl ether sulfate, sodium salt; Polyoxyethylene (12) lauryl ether sulfate, sodium salt; Polyethylene glycol (5) lauryl ether sulfate, sodium salt; Polyethylene glycol 400 lauryl ether sulfate, sodium salt; Polyethylene glycol 600 lauryl ether sulfate, sodium salt; Dodecanol, ethoxylated, monoether with sulfuric acid, sodium salt; Ethanol, 2-(dodecyloxy)-, 1-(hydrogen sulfate), sodium salt (1:1); Steol CS-460; UNII-410Q7WN1BX; DSSTox_CID_9298; DSSTox_RID_78753; DSSTox_GSID_29298; C14H29O5S.Na; SCHEMBL675596; 410Q7WN1BX; CHEMBL3183840; CTK3I7573; DTXSID70274019; Sodium dodecylmonooxyethylene sulfate; Tox21_302374; Poly(oxy-1,2-ethanediyl), .alpha.-sulfo-.omega.-(dodecyloxy)-, sodium salt; sodium dodecylmono(oxyethylene) sulfate; sodium 1-(2-sulfonatooxyethoxy)dodecane; NCGC00255215-01; LS-66742; LS-68569; O192; CAS-9004-82-4; FT-0699797; Sodium Lauryl Ether Sulfate, 1 Mole of E.O.; Ethanol, 2-(dodecyloxy)-, sulfate, sodium salt; Ethanol, 2-(dodecyloxy)-, sulfate, sodium salt (7CI); Alpha-sulfo-omega-(dodecyloxy)-poly(oxyethylene) sodium salt; Alpha-sulfo-omega-(dodecyloxy)-poly(oxy-1,2-ethanediyl) sodium salt; Ethanol,2-(dodecyloxy)-, 1-(hydrogen sulfate), sodium salt (1:1); Poly(oxy-1,2-ethanediyl), alpha-sulfo-omega-(dodecyloxy)-, sodium salt (1:1); 95508-27-3; teksapon; tekzapon; texapon; teksapon n 40; tekzapon n40; texapon n40; teksapon n 40 s; tekzapon n 40 s; texapon n 40 s; TEKSAPON; TEKZAPON; TEXAPON; TEKSAPON N 40; TEKZAPON N 40; TEXAPON N 40; TEKSAPON N 40 IS; TEKZAPON N 40 IS; TAXAPON N 40 IS; Sodium laureth sulfate; Cycloryl NA; Maprofix ES; Rhodapex ESY; Empimin KSN; Conco Sulfate WE; Sipon ES; Retzolate 60; Sipon ESY; Standapol ES 2; Standapol ES-3; Maprofix 60S; Empicol ESB 3; Rewopol NL-2; Texapon N40; Zetesol LES 2; Dodecyl sodium ethoxysulfate; Empicol ESB 30; Empimin KSN 27; Empimin KSN 60; Empimin KSN 70; 15826-16-1; Avirol 100E; Sipon LES 25; Elfan 242; Elfan NS 242; Elfan NS 243; 9004-82-4; Sodium laureth-5 sulfate; Sodium laureth-8 sulfate; Sodium dodeceth-1 sulfate; 2-(Dodecyloxy)ethyl sodium sulfate; Etoxon EPA; Sodium lauryl ethoxysulphate; Sodium 2-(dodecyloxy)ethyl sulphate; Sodium lauryl oxyethyl sulfate; HSDB 752; Sodium lauryl sulfate ethoxylate; Sodium lauryl polyoxyethylene ether sulfate; Sodium 2-(lauryloxy)ethyl sulfate; Sodium 2-(dodecyloxy)ethyl sulfate; Ethanol, 2-(dodecyloxy)-, hydrogen sulfate, sodium salt; Sodium laureth-7 sulfate; EINECS 239-925-1; Sodium laureth-12 sulfate; Sodium laurylpoly(oxyethylene) sulfate; Sodium (lauryloxypolyethoxy)ethyl sulfate; Sodium poly(oxyethylene) lauryl ether sulfate; SODIUM DODECYLPOLY(OXYETHYLENE) SULFATE; Sodium polyoxyethylene (8) sulfate; 2-(Dodecyloxy)ethanol hydrogen sulfate sodium salt; Laureth-8 carboxylic acid, sodium salt; Polyethylene glycol sulfate monododecyl ether sodium salt; Sodium polyethylene glycol 400 sulfate; Polyethylene glycol (7) lauryl ether sulfate, sodium salt; PEG-5 Lauryl ether sulfate, sodium salt; PEG-7 Lauryl ether sulfate, sodium salt; PEG-8 Lauryl ether sulfate, sodium salt; PEG-12 Lauryl ether sulfate, sodium salt; alpha-Sulfo-omega-(dodecyloxy)poly(oxy-1,2-ethanediyl) sodium salt; Poly(oxy-1,2-ethanediyl), alpha-sulfo-omega-(dodecyloxy)-, sodium salt; Glycols, polyethylene, mono(hydrogen sulfate), dodecyl ether, sodium salt; Sodium polyoxyethylene (5) lauryl ether sulfate; Sodium polyoxyethylene (7) lauryl ether sulfate; Sodium polyoxyethylene (12) lauryl ether sulfate; Sodium polyethylene glycol (5) lauryl ether sulfate; Sodium polyethylene glycol (7) lauryl ether sulfate; Sodium polyethylene glycol 600 lauryl ether sulfate; Polyoxyethylene (5) lauryl ether sulfate, sodium salt; Polyoxyethylene (7) lauryl ether sulfate, sodium salt; Polyoxyethylene (8) lauryl ether sulfate, sodium salt; Polyoxyethylene (12) lauryl ether sulfate, sodium salt; Polyethylene glycol (5) lauryl ether sulfate, sodium salt; Polyethylene glycol 400 lauryl ether sulfate, sodium salt; Polyethylene glycol 600 lauryl ether sulfate, sodium salt; Dodecanol, ethoxylated, monoether with sulfuric acid, sodium salt; Ethanol, 2-(dodecyloxy)-, 1-(hydrogen sulfate), sodium salt (1:1); Steol CS-460; UNII-410Q7WN1BX; DSSTox_CID_9298; DSSTox_RID_78753; DSSTox_GSID_29298; C14H29O5S.Na; SCHEMBL675596; 410Q7WN1BX; CHEMBL3183840; CTK3I7573; DTXSID70274019; Sodium dodecylmonooxyethylene sulfate; Tox21_302374; Poly(oxy-1,2-ethanediyl), .alpha.-sulfo-.omega.-(dodecyloxy)-, sodium salt; sodium dodecylmono(oxyethylene) sulfate; sodium 1-(2-sulfonatooxyethoxy)dodecane; NCGC00255215-01; LS-66742; LS-68569; O192; CAS-9004-82-4; FT-0699797; Sodium Lauryl Ether Sulfate, 1 Mole of E.O.; Ethanol, 2-(dodecyloxy)-, sulfate, sodium salt; Ethanol, 2-(dodecyloxy)-, sulfate, sodium salt (7CI); Alpha-sulfo-omega-(dodecyloxy)-poly(oxyethylene) sodium salt; Alpha-sulfo-omega-(dodecyloxy)-poly(oxy-1,2-ethanediyl) sodium salt; Ethanol,2-(dodecyloxy)-, 1-(hydrogen sulfate), sodium salt (1:1); Poly(oxy-1,2-ethanediyl), alpha-sulfo-omega-(dodecyloxy)-, sodium salt (1:1); 95508-27-3; teksapon; tekzapon; texapon; teksapon n 40; tekzapon n40; texapon n40; teksapon n 40 s; tekzapon n 40 s; texapon n 40 s; TEKSAPON; TEKZAPON; TEXAPON; TEKSAPON N 40; TEKZAPON N 40; TEXAPON N 40; TEKSAPON N 40 IS; TEKZAPON N 40 IS; TAXAPON N 40 IS; Sodium laureth sulfate; Cycloryl NA; Maprofix ES; Rhodapex ESY; Empimin KSN; Conco Sulfate WE; Sipon ES; Retzolate 60; Sipon ESY; Standapol ES 2; Standapol ES-3; Maprofix 60S; Empicol ESB 3; Rewopol NL-2; Texapon N40; Zetesol LES 2; Dodecyl sodium ethoxysulfate; Empicol ESB 30; Empimin KSN 27; Empimin KSN 60; Empimin KSN 70; 15826-16-1; Avirol 100E; Sipon LES 25; Elfan 242; Elfan NS 242; Elfan NS 243; 9004-82-4; Sodium laureth-5 sulfate; Sodium laureth-8 sulfate; Sodium dodeceth-1 sulfate; 2-(Dodecyloxy)ethyl sodium sulfate; Etoxon EPA; Sodium lauryl ethoxysulphate; Sodium 2-(dodecyloxy)ethyl sulphate; Sodium lauryl oxyethyl sulfate; HSDB 752; Sodium lauryl sulfate ethoxylate; Sodium lauryl polyoxyethylene ether sulfate; Sodium 2-(lauryloxy)ethyl sulfate; Sodium 2-(dodecyloxy)ethyl sulfate; Ethanol, 2-(dodecyloxy)-, hydrogen sulfate, sodium salt; Sodium laureth-7 sulfate; EINECS 239-925-1; Sodium laureth-12 sulfate; Sodium laurylpoly(oxyethylene) sulfate; Sodium (lauryloxypolyethoxy)ethyl sulfate; Sodium poly(oxyethylene) lauryl ether sulfate; SODIUM DODECYLPOLY(OXYETHYLENE) SULFATE; Sodium polyoxyethylene (8) sulfate; 2-(Dodecyloxy)ethanol hydrogen sulfate sodium salt; Laureth-8 carboxylic acid, sodium salt; Polyethylene glycol sulfate monododecyl ether sodium salt; Sodium polyethylene glycol 400 sulfate; Polyethylene glycol (7) lauryl ether sulfate, sodium salt; PEG-5 Lauryl ether sulfate, sodium salt; PEG-7 Lauryl ether sulfate, sodium salt; PEG-8 Lauryl ether sulfate, sodium salt; PEG-12 Lauryl ether sulfate, sodium salt; alpha-Sulfo-omega-(dodecyloxy)poly(oxy-1,2-ethanediyl) sodium salt; Poly(oxy-1,2-ethanediyl), alpha-sulfo-omega-(dodecyloxy)-, sodium salt; Glycols, polyethylene, mono(hydrogen sulfate), dodecyl ether, sodium salt; Sodium polyoxyethylene (5) lauryl ether sulfate; Sodium polyoxyethylene (7) lauryl ether sulfate; Sodium polyoxyethylene (12) lauryl ether sulfate; Sodium polyethylene glycol (5) lauryl ether sulfate; Sodium polyethylene glycol (7) lauryl ether sulfate; Sodium polyethylene glycol 600 lauryl ether sulfate; Polyoxyethylene (5) lauryl ether sulfate, sodium salt; Polyoxyethylene (7) lauryl ether sulfate, sodium salt; Polyoxyethylene (8) lauryl ether sulfate, sodium salt; Polyoxyethylene (12) lauryl ether sulfate, sodium salt; Polyethylene glycol (5) lauryl ether sulfate, sodium salt; Polyethylene glycol 400 lauryl ether sulfate, sodium salt; Polyethylene glycol 600 lauryl ether sulfate, sodium salt; Dodecanol, ethoxylated, monoether with sulfuric acid, sodium salt; Ethanol, 2-(dodecyloxy)-, 1-(hydrogen sulfate), sodium salt (1:1); Steol CS-460; UNII-410Q7WN1BX; DSSTox_CID_9298; DSSTox_RID_78753; DSSTox_GSID_29298; C14H29O5S.Na; SCHEMBL675596; 410Q7WN1BX; CHEMBL3183840; CTK3I7573; DTXSID70274019; Sodium dodecylmonooxyethylene sulfate; Tox21_302374; Poly(oxy-1,2-ethanediyl), .alpha.-sulfo-.omega.-(dodecyloxy)-, sodium salt; sodium dodecylmono(oxyethylene) sulfate; sodium 1-(2-sulfonatooxyethoxy)dodecane; NCGC00255215-01; LS-66742; LS-68569; O192; CAS-9004-82-4; FT-0699797; Sodium Lauryl Ether Sulfate, 1 Mole of E.O.; Ethanol, 2-(dodecyloxy)-, sulfate, sodium salt; Ethanol, 2-(dodecyloxy)-, sulfate, sodium salt (7CI); Alpha-sulfo-omega-(dodecyloxy)-poly(oxyethylene) sodium salt; Alpha-sulfo-omega-(dodecyloxy)-poly(oxy-1,2-ethanediyl) sodium salt; Ethanol,2-(dodecyloxy)-, 1-(hydrogen sulfate), sodium salt (1:1); Poly(oxy-1,2-ethanediyl), alpha-sulfo-omega-(dodecyloxy)-, sodium salt (1:1); 95508-27-3; teksapon; tekzapon; texapon; teksapon n 40; tekzapon n40; texapon n40; teksapon n 40 s; tekzapon n 40 s; texapon n 40 s; TEKSAPON; TEKZAPON; TEXAPON; TEKSAPON N 40; TEKZAPON N 40; TEXAPON N 40; TEKSAPON N 40 IS; TEKZAPON N 40 IS; TAXAPON N 40 IS;
EN
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) IUPAC Name sodium;2-dodecoxyethyl sulfate
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) InChI InChI=1S/C14H30O5S.Na/c1-2-3-4-5-6-7-8-9-10-11-12-18-13-14-19-20(15,16)17;/h2-14H2,1H3,(H,15,16,17);/q;+1/p-1
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) InChI Key ASEFUFIKYOCPIJ-UHFFFAOYSA-M
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Canonical SMILES CCCCCCCCCCCCOCCOS(=O)(=O)[O-].[Na+]
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Molecular Formula C14H29NaO5S
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) CAS 15826-16-1
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) European Community (EC) Number 239-925-1
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) DSSTox Substance ID DTXSID2029298
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Molecular Weight 332.43 g/mol
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Hydrogen Bond Donor Count 0
Sodium laureth sulfate (SLES) (TEXAPON N40 IS)Hydrogen Bond Acceptor Count 5
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Rotatable Bond Count 15
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Exact Mass 332.163339 g/mol
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Monoisotopic Mass 332.163339 g/mol
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Topological Polar Surface Area 84 Ų
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Heavy Atom Count 21
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Formal Charge 0
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Complexity 290
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Isotope Atom Count 0
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Defined Atom Stereocenter Count 0
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Undefined Atom Stereocenter Count 0
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Defined Bond Stereocenter Count 0
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Undefined Bond Stereocenter Count 0
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Covalently-Bonded Unit Count 2
Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Compound Is Canonicalized Yes
Sodium laureth sulfate (SLES) (TEXAPON N40 IS), an accepted contraction of sodium lauryl ether sulfate (SLES) (TEXAPON N40 IS), is an anionic detergent and surfactant found in many personal care products (soaps, shampoos, toothpaste, etc.). (SLES) (TEXAPON N40 IS) is an inexpensive and very effective foaming agent.[1] (SLES) (TEXAPON N40 IS), sodium lauryl sulfate (SLS), ammonium lauryl sulfate (ALS), and sodium pareth sulfate are surfactants that are used in many cosmetic products for their cleaning and emulsifying properties. It is derived from palm kernel oil or coconut oil.Its chemical formula is CH3(CH2)11(OCH2CH2)nOSO3Na. Sometimes the number represented by n is specified in the name, for example laureth-2 sulfate. The product is heterogeneous in the number of ethoxyl groups, where n is the mean. Laureth-3 sulfate is common in commercial products.(SLES) (TEXAPON N40 IS) is prepared by ethoxylation of dodecyl alcohol, which is produced industrially from palm kernel oil or coconut oil. The resulting ethoxylate is converted to a half ester of sulfuric acid, which is neutralized by conversion to the sodium salt.[1] The related surfactant sodium lauryl sulfate (also known as sodium dodecyl sulfate or SDS) is produced similarly, but without the ethoxylation step. Sodium laureth sulfate (SLES) (TEXAPON N40 IS) and ammonium lauryl sulfate (ALS) are commonly used alternatives to (SLES) (TEXAPON N40 IS) in consumer products.[1]Tests in the US indicate that it is safe for consumer use. The Australian government’s Department of Health and Ageing and its National Industrial Chemicals Notification and Assessment Scheme (NICNAS) have determined (SLES) (TEXAPON N40 IS) does not react with DNA.[2]Irritation Like many other detergents, (SLES) (TEXAPON N40 IS) is an irritant.[3] It has also been shown that (SLES) (TEXAPON N40 IS) causes eye or skin irritation in experiments conducted on animals and humans.[3] The related surfactant Sodium laureth sulfate (SLES) (TEXAPON N40 IS) is a known irritant.[4][5][6][7]1,4-Dioxane contamination Some products containing (SLES) (TEXAPON N40 IS) contain traces (up to 300 ppm) of 1,4-dioxane, which is formed as a by-product during the ethoxylation step of its production. 1,4-Dioxane is classified by the International Agency for Research on Cancer as a Group 2B carcinogen: possibly carcinogenic to humans. The United States Food and Drug Administration (FDA) recommends that these levels be monitored,[8] and encourages manufacturers to remove 1,4-dioxane, though it is not required by federal law.[9]Sodium Laureth Sulfate. TEXAPON N 40 IS by BASF is an anionic surfactant. TEXAPON® N 40 IS finds application in shampoos and bubble baths.Texapon N 40 INCI Sodium Laureth Sulfate COLOR Straw yellow DESCRIPTION: Aqueous solution of sodium lauryl sulphate stabilized with formaldehyde.SOLUBILITY: Completely miscible with water.Used in shampoos and foaming bath preparations, it is indifferent to the various water hardness, even at low temperatures does not lose its foaming power.For excellent wetting and emulsifying properties and its high skin compatibility is a leading raw material, both for cosmetic and dermo-pharmaceutical use.Its high skin compatibility and wettability make it widely used in the cosmetic and pharmaceutical industry, supports most of the additives and can be mixed with other surfactants, especially Tegobetaine, this ingredient softens much the final preparation and reduces power Texapon irritant n40 Very easy to add color and aroma,Dosage of 25 to 50% in bath gels, shampoos and liquid soaps.TEXAPON N 40 IS T BASF / Cognis Sodium laureth sulfate (SLES) (TEXAPON N40 IS). Anionic Surfactant White to off-white paste for clear and pearlescent medium to high viscosity shampoos and bath and shower products.Why Sodium laureth sulfate (SLES) (TEXAPON N40 IS)?When we use a wash or beauty product on our skin, it’s probably a liquid made of a water phase and an oily phase. As we know, oil and water don’t mix, so something is required to keep the ingredients together.That something is called a surfactant. A surfactant allows the oil and water molecules to bind together – it’s what’s found in soaps and detergents so we can wash our oily faces or dishes with water and get the grime to disappear.Sodium lauryl sulfate is a surfactant, and its efficacy, low cost, abundance and simplicity mean it’s used in a variety of cosmetic, dermatological and consumer products.Is it harmful?Our skin’s outermost layer is specially designed to keep harmful stuff out, and this is where a surfactant can cause problems. Using a chemical that weakens this defence mechanism can potentially cause our skin harm.And some surfactants are more irritating to our skin than others. For something to be harmful, irritant or allergenic, it has to fulfil two criteria.It has to have been found in studies to irritate human skin, and it has to have the ability to penetrate the skin. Sodium laureth sulfate (SLES) (TEXAPON N40 IS) ticks both of these boxes.Researchers from Germany tested 1,600 patients for Sodium laureth sulfate (SLES) (TEXAPON N40 IS) irritancy and found 42% of the patients tested had an irritant reaction.Another study, on seven volunteers over a three and a half month period, found regular contact caused irritation, and the irritation subsided once the skin was no longer exposed to Sodium laureth sulfate (SLES) (TEXAPON N40 IS).Another study found the warmer the water used with Sodium laureth sulfate (SLES) (TEXAPON N40 IS), the more irritating it will be.In fact, Sodium laureth sulfate (SLES) (TEXAPON N40 IS) is so known to cause irritation, it’s used as a positive control in dermatological testing. That is, new products being tested to see how irritating they might be to human skin are compared to Sodium laureth sulfate (SLES) (TEXAPON N40 IS) – something we know definitely to be irritating.If a person is sensitive to Sodium laureth sulfate (SLES) (TEXAPON N40 IS), they might find the area that has been in contact is red, dry, scaly, itchy or sore.It’s also important to note there’s no scientific evidence Sodium laureth sulfate (SLES) (TEXAPON N40 IS) causes cancer, despite what you may read on the internet.So why is it allowed?So if it’s known to be irritating to human skin, why don’t the regulatory authorities ban its use?For Sodium laureth sulfate (SLES) (TEXAPON N40 IS) to be considered dangerous, it would have to be in contact with the skin for a long period of time. Generally, with consumer products such as washes that contain Sodium laureth sulfate (SLES) (TEXAPON N40 IS), it’s assumed they won’t be on the skin for very long, meaning the chance of your skin being affected is pretty low. So authorities don’t ban its use, but instead cap the maximum percentage at which it can be used in products.This cap varies based on how long the product is likely to be in contact with the skin. So products that will be on the skin for a prolonged time can contain no more than 0.05-2.5% Sodium laureth sulfate (SLES) (TEXAPON N40 IS) in most countries.All consumer and cosmetic product manufacturers are required to conduct thorough testing and include any adverse findings in the form of warnings on their labels. So on products containing Sodium laureth sulfate (SLES) (TEXAPON N40 IS), you should see something like “if this product causes any skin redness or irritation, discontinue use and consult a medical practitioner”.Who should avoid Sodium laureth sulfate (SLES) (TEXAPON N40 IS)? People with a history of sensitive skin, hyperirritable skin and patients suffering from skin conditions such as atopic dermatitis (eczema), rosacea and psoriasis are best to avoid products containing Sodium laureth sulfate (SLES) (TEXAPON N40 IS).There are many safer alternatives available (look for fatty alcohol ethoxylate, alkyl phenol ethoxylate or fatty acid alkoxylate on the label). If you think it might be Sodium laureth sulfate (SLES) (TEXAPON N40 IS) causing a skin irritation, stop the use of the product and ask your pharmacist or GP for advice. Skin care products also have hotline numbers on the packaging that can be contacted to report adverse effects.Sodium laureth sulfate (SLES) (TEXAPON N40 IS) is a surface-active agent or surfactant. All surfactants are partly water-soluble and partly oil-soluble. It is this quality that allows oil and water, which normally don’t mix together, to become dispersed.Sodium laureth sulfate (SLES) (TEXAPON N40 IS) is what’s known as a “surfactant.” This means it lowers the surface tension between ingredients, which is why it’s used as a cleansing and foaming agent.Most concerns about Sodium laureth sulfate (SLES) (TEXAPON N40 IS) stem from the fact that it can be found in beauty and self-care products as well as in household cleaners.Sodium laureth sulfate ((SLES) (TEXAPON N40 IS)) (TEXAPON N40 IS) is a surfactant with a similar chemical formula. However, (SLES) (TEXAPON N40 IS) is milder and less irritating than Sodium laureth sulfate (SLES) (TEXAPON N40 IS).Regarding its use in cosmetics and body products, the safety assessment study of Sodium laureth sulfate (SLES) (TEXAPON N40 IS), published in 1983 in the International Journal of Toxicology (the most recent assessment), found that it’s not harmful if used briefly and rinsed from the skin, as with shampoos and soaps.The report says that products that stay on the skin longer shouldn’t exceed 1 percent concentration of Sodium laureth sulfate (SLES) (TEXAPON N40 IS).However, the same assessment did suggest some possible, albeit minimal, risk to humans using Sodium laureth sulfate (SLES) (TEXAPON N40 IS). For example, some tests found that continuous skin exposure to Sodium laureth sulfate (SLES) (TEXAPON N40 IS) could cause mild to moderate irritation in animals.Nevertheless, the assessment concluded that Sodium laureth sulfate (SLES) (TEXAPON N40 IS) is safe in formulations used in cosmetics and personal care products. Because many of these products are designed to be rinsed off after short applications, the risks are minimal.According to most research, Sodium laureth sulfate (SLES) (TEXAPON N40 IS) is an irritant but not a carcinogen. Studies have shown no link between the use of Sodium laureth sulfate (SLES) (TEXAPON N40 IS) and increased cancer risk.According to a 2015 study, Sodium laureth sulfate (SLES) (TEXAPON N40 IS) is safe for use in household cleaning products.What Does Sodium laureth sulfate (SLES) (TEXAPON N40 IS) Stand For? What are the harms of Sodium laureth sulfate (SLES) (TEXAPON N40 IS)? It means Sodium Lauryl Sulphate, popularly known as Sodium laureth sulfate (SLES) (TEXAPON N40 IS). Sodium Lauryl Sulphate is a medium irritating substance. This chemical, which can be easily absorbed by the skin, takes place in the skin for a few days. Sodium Lauryl Sulfate can also be converted to nitrosamines, known to be carcinogenic, by reacting with various chemicals. So, where is Sodium Lauryl Sulfate used? What are the known damages? What does Sodium laureth sulfate (SLES) (TEXAPON N40 IS) stand for? What are the harms of Sodium laureth sulfate (SLES) (TEXAPON N40 IS)? It means Sodium Lauryl Sulphate, popularly known as Sodium laureth sulfate (SLES) (TEXAPON N40 IS). Sodium Lauryl Sulphate is a medium irritating substance. This chemical, which can be easily absorbed by the skin, takes place in the skin for a few days. Sodium Lauryl Sulfate can also be converted to nitrosamines, known to be carcinogenic, by reacting with various chemicals. So, where is Sodium Lauryl Sulfate used? What are the known harms? Which Products Have Sodium laureth sulfate (SLES) (TEXAPON N40 IS)? Toothpaste, Shampoo, Car, Floor Soaps, Moisturizers, Bath Foams, Soluble Aspirin, Shower Gel, Cleaning Products, Face Wash Gel, Makeup Cleaning Products, Hair Dyes, Body Lotions, Makeup Materials. Sodium Lauryl Sulphate is the main ingredient in these products that creates the foaming effect. For most people, foaming products is a good sign of cleanliness, but the facts show the opposite. Because Sodium Lauryl Sulphate, which makes these products foam, is a very heavy chemical. What are the known harms of Sodium laureth sulfate (SLES) (TEXAPON N40 IS)? Sodium Lauryl Sulphate, which mimics the estrogen hormone, affects reproductive development and sexual health. Sodium laureth sulfate (SLES) (TEXAPON N40 IS) absorbed from the hair follicles can directly reach the eye area. High degree of Sodium laureth sulfate (SLES) (TEXAPON N40 IS) absorption can be very harmful for internal organs. It can damage hair follicles, cells and structure with the chemicals in its content. It can accelerate the formation of cancer by reacting with other chemicals that cause cancer in the body. It irritates the top surface of the skin. Therefore, shampoos without Sodium laureth sulfate (SLES) (TEXAPON N40 IS) should be preferred. Apart from the human body, there are many damages to the functioning of nature, that is to the ecosystem. . Causes toxic effects on blood cells. Especially Sodium laureth sulfate (SLES) (TEXAPON N40 IS) taken orally with toothpaste; It causes gum bleeding, gum swelling. At the same time, it affects the sensitivity of the teeth by reducing the resistance of the teeth to acids. Sodium Lauryl Sulphate, which completely disrupts the moisture balance of the skin, causes a very dry skin. Shampoos without Sodium laureth sulfate (SLES) (TEXAPON N40 IS) are among the solution suggestions for dry hair. An important issue to consider is other ingredients in shampoos and shower gels: Ammonium Laureth Sulphate (ALES), Sodium Lauryl Sulphate (Sodium laureth sulfate (SLES) (TEXAPON N40 IS)) and Sodium Laureth Sulphate ((SLES) (TEXAPON N40 IS)) (TEXAPON N40 IS). These substances are more irritating to the skin. They are not derived from natural sources like palm or coconut oil. They are formed from sulfuric trioxide and chlorosulfuric acid. They cause most of the allergic reactions on the skin and lead to dryness and irritation of the skin.Sodium Laureth Sulphate (SLES) (TEXAPON N40 IS) (Sodium lauryl sulfate), Sodium laureth sulfate (SLES) (TEXAPON N40 IS) is the sodium salt of lauryl sulfate. It is a chemical originating from coconut. This cheap ingredient creates a lot of foam, which is its main purpose. Sodium laureth sulphate (Sodium laureth sulfate (SLES) (TEXAPON N40 IS)) is generally preferred in industries for cleaning pipelines, while detergent active ingredient in liquid dishwashing detergent and surface cleaners. Sodium Lauryl Sulfate is used in all shampoos, toothpastes, shower gel, liquid soaps, shaving foams, laundry and dishwashing detergents, make-up materials. Please read the contents of the product you bought. Sodium laureth sulfate (SLES) (TEXAPON N40 IS) is an irritant substance, classified as medium hazardous. It is tolerated up to 15% in shampoos because it only stays in contact with our scalp for a few minutes, then rinsed off. Therefore, it is very important that shampoos containing Sodium laureth sulfate (SLES) (TEXAPON N40 IS) do not stay on your scalp for a long time. Wait at most 2 minutes after shampooing your hair. If you wait longer, Sodium Laureth Sulphate is absorbed through the scalp and enters your body.Sodium laureth sulphate damages (Sodium lauryl sulphate, Sodium laureth sulfate (SLES) (TEXAPON N40 IS)) Adsense-Flexible skin (with shampoo from the scalp) or orally (toothpaste) Sodium laureth sulfate (SLES) (TEXAPON N40 IS) is less than 1 percent Even when taken, it is harmful to human health. Sodium laureth sulfate (SLES) (TEXAPON N40 IS); It prepares the ground for toxic effects on blood cells, swelling of the gums, gum diseases, decays and allergic reactions by reducing the resistance of teeth against acids. It also has the following harmful effects: Cancer – Other cancer-causing chemical Endocrine (hormone) disruption – Sodium laureth sulfate (SLES) (TEXAPON N40 IS) / (SLES) (TEXAPON N40 IS) can mimic the action of hormones and disrupt the associated mechanisms that control our daily body functions; It is known to inhibit the reproductive system and sexual development by imitating the estrogen hormone; Eye disruption – Sodium laureth sulfate (SLES) (TEXAPON N40 IS) is absorbed especially by the eye cells instantly (not through direct eye contact, but through the hair follicles); Especially in children, harmful effects and development are observed; Hair loss – Sodium laureth sulfate (SLES) (TEXAPON N40 IS) is a very harsh abrasive that damages hair follicles; Extreme skin sensitivity – Sodium laureth sulfate (SLES) (TEXAPON N40 IS) increases allergic reactions; It damages the skin, which has the ability to act as a barrier against harmful substances; Dry skin – It makes the skin dry by losing the moisture of the skin Sodium Lauryl Sulfate (Sodium laureth sulfate (SLES) (TEXAPON N40 IS)) in shampoos and its possible harmful effects have been the subject of many discussions in the press and the public. For this reason, Sodium laureth sulfate (SLES) (TEXAPON N40 IS)s have been included in many studies in the scientific literature, because they are chemicals with anionic surfactant properties, they add moisturizing, foaming and spreading properties to shampoos, detergents and soaps, and therefore they are included in the content of these products. Apart from this, they are also used in products such as creams, lotions, medical preparations and toothpaste, and are used in metal production. It is also used as a cleaning agent in cosmetics, as a food additive, as an adjuvant in insecticides, and in paint removers. Sodium laureth sulfate (SLES) (TEXAPON N40 IS) ‘has a wide range of uses in the industry. The use of as a cleansing agent in cosmetic products causes contact with nails, skin, hair, face and hands through these products. The results of the studies conducted on the possible health effects that may occur as a result of this contact will be summarized in this article. In studies conducted with Sodium laureth sulfate (SLES) (TEXAPON N40 IS), it has been observed that it is irritating in contact with the eyes in rabbits, and it can cause skin irritation in humans (when it is at a concentration of 20% and after 4 hours of patch application). Apart from this, it has also been shown that it may cause irritation in the respiratory tract and oral mucosa, especially in people with recurrent mouth ulcers. Effects Caused by Repetitive Exposure; It was observed that Sodium laureth sulfate (SLES) (TEXAPON N40 IS) by oral gavage could cause gastrointestinal irritation in mice administered, but this effect occurred at doses higher than 100mg / kg bw / day. In studies evaluating acute toxicity, solutions with Sodium laureth sulfate (SLES) (TEXAPON N40 IS) varying between 0.21-26% were used and the above results were obtained. .Genotoxicity; The genotoxic effect of Sodium laureth sulfate (SLES) (TEXAPON N40 IS) could not be demonstrated in in vivo and in vitro animal experiments. After these studies, it was concluded that Sodium laureth sulfate (SLES) (TEXAPON N40 IS) is not genotoxic and does not interact with DNA.
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Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) IUPAC Ad sodyum; 2-dodecoxyethyl sülfat
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) InChI InChI = 1S / C14H30O5S.Na / c1-2-3-4-5-6-7-8-9-10-11-12-18-13-14-19-20 (15,16) 17; / h2-14H2,1H3, (H, 15,16,17); / q; + 1 / p-1
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) InChI Anahtar ASEFUFIKYOCPIJ-UHFFFAOYSA-M
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Kanonik SMILES CCCCCCCCCCCCOCCOS (= O) (= O) [O -]. [Na +]
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Moleküler Formül C14H29NaO5S
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) CAS 15826-16-1
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Avrupa Topluluu (EC) Numaras 239-925-1
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) DSSTox Madde Kimlii DTXSID2029298
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Moleküler Arlk 332.43 g / mol
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Hidrojen Ba Donör Says 0
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Hidrojen Ba Alcs Says 5
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Dönebilen Tahvil Says 15
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Tam Kütle 332.163339 g / mol
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Monoizotopik Kütle 332.163339 g / mol
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Topolojik Polar Yüzey Alan 84 Ų
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Ar Atom Says 21
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Resmi Ücret 0
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Karmaklk 290
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) zotop Atom Says 0
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Tanml Atom Stereo Merkez Says 0
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Tanmsz Atom Stereo Merkez Says 0
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Tanml Bond Stereocenter Says 0
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Tanmsz Ba Stereocenter Says 0
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Kovalent Bal Birim Says 2
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Bileik Kanonikletirildi Evet
Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’nin Açlm Nedir? Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’nin Zararlar Nelerdir?Halk arasnda Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) olarak bilinen Sodyum Lauril Sülfat anlamna gelmektedir. Sodyum Lauril Sülfat orta derecede tahri edici özellie sahip bir maddedir. Cilt tarafndan kolayca emilebilen bu kimyasal birkaç gün boyunca ciltte yer edinmektedir. Sodyum Lauril Sülfat ayn zamanda çeitli kimyasallarla tepkimeye girerek kanserojen olduu bilinen nitrozaminlere dönüebilmektedir. Peki, Sodyum Lauril Sülfat nerelerde kullanlmaktadr? Bilinen zararlar nelerdir?Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’nin Açlm Nedir? Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’nin Zararlar Nelerdir?Halk arasnda Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) olarak bilinen Sodyum Lauril Sülfat anlamna gelmektedir. Sodyum Lauril Sülfat orta derecede tahri edici özellie sahip bir maddedir. Cilt tarafndan kolayca emilebilen bu kimyasal birkaç gün boyunca ciltte yer edinmektedir. Sodyum Lauril Sülfat ayn zamanda çeitli kimyasallarla tepkimeye girerek kanserojen olduu bilinen nitrozaminlere dönüebilmektedir. Peki, Sodyum Lauril Sülfat nerelerde kullanlmaktadr? Bilinen zararlar nelerdir? Hangi Ürünlerde Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) Bulunmaktadr?Di macunu.ampuan.Araba.Yer sabunlar.Nemlendiriciler.Banyo köpükleri.Çözülebilir aspirinler.Du jeli.Temizlik ürünleri.Yüz ykama jelleri.Makyaj temizleme ürünleri.Saç boyalar.Vücut losyonlar.Makyaj malzemeleri.Tüm bu ürünlerde kullanlan Sodyum Lauril Sülfat, bu ürünlerde bulunan köpürtücü etkiyi yaratan ana maddedir. Çou kii için ürünlerin köpürmesi temizlik adna iyiye iarettir fakat gerçekler tam tersini göstermektedir. Çünkü bu ürünlerin köpürmesini salayan Sodyum Lauril Sülfat oldukça ar bir kimyasaldr.Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’nin Bilinen Zararlar Nelerdir?Östrojen hormonunu taklit eden Sodyum Lauril Sülfat, üreme geliimi ile birlikte cinsel sal da etkilemektedir.Saç köklerinden emilen Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) direkt olarak göz bölgesine ulaarak zarar verebilir.Var olan alerjik reaksiyonlar artrabilir ya da yeni alerjik reaksiyonlar yaratabilir.Yüksek derecede Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) emilimi iç organlar için oldukça zararl olabilir.çeriinde bulunan kimyasallar ile saç foliküllerine, hücrelerine ve yapsna zarar verebilir.Vücutta kanser oluturan dier kimyasallar ile reaksiyona girerek kanser oluumunu hzlandrabilir.Ya fark olmakszn cildin en üst yüzeyini oldukça tahri eder. Bu yüzden Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) bulunmayan ampuanlar tercih edilmelidir.nsan vücudu haricinde doann ileyiine yani ekosisteme birçok zarar bulunmaktadr.Sodyum Lauril Sülfat içeren ampuan veya di macunu aracl ile vücuda giren ve kan dolamna karan bu kimyasal, %1’in altnda alndnda bile insan sal için oldukça zararldr.Kan hücrelerinde toksik etkiye sebep olmaktadr.Özellikle di macunu ile az yoluyla alnan Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS); di eti kanamalarna, di eti imesine sebep olmaktadr. Ayn zamanda dilerin asitlere kar olan direncini düürerek dilerin hassasiyetini etkilemektedir.Cildin nem dengesini tamamen bozan Sodyum Lauril Sülfat oldukça kuru bir cilde sebep olmaktadr. Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) bulunmayan ampuanlar, kuru saçlar için çözüm önerileri arasnda yer alr.Dikkat edilmesi gereken önemli bir konu, ampuan ve du jellerinde yer alan dier maddeler: Amonyum Laureth Sülfat(ALES), Sodyum Lauryl Sülfat (Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)) ve Sodyum Laureth Sülfat ((SLES) (TEXAPON N40 IS)) (TEXAPON N40 IS). Bu maddeler cilt için daha tahri edicidir. Palm veya hindistancevizi ya gibi doal kaynaklardan elde edilmezler. Sülfürik trioksit ve klorosülfürik asitten oluturulurlar. Cilt üzerinde alerjik reaksiyonlarn çouna neden olurlar ve cildin kuruyup tahri olmasna yol açarlar.Sodyum Laureth Sülfat Sodyum laureth sülfat (Sodyum lauril sulfat), Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS), lauryl sülfatn sodyum tuzudur. Hindistan cevizi kaynakl bir kimyasaldr. Bu ucuz bileen çok miktarda köpük yaratyor, asl kullanm amac da bu. Sodyum laureth sülfat (Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)), genelde sanayilerde boru hattn temizlemek için tercih edilirken, sv bulak deterjan ve yüzey temizleyicilerin de deterjan aktif maddesi. Sodium Lauryl Sulfate Tüm ampuanlarda, di macunlarnda, du jelinde, sv sabunlarda, tra köpüklerinde, çamar ve bulak deterjanlarnda, makyaj malzemelerinde kullanlmaktadr. Aldnz ürünün içindekiler ksmn mutlaka okuyunuz.Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS), orta tehlikeli olarak snflandrlm, tahri edici bir maddedir. ampuanlarda %15 oranna kadar tolere edilir, çünkü saç derimizle sadece birkaç dakika temas halinde kalr, sonra durulanarak atlr. Bu nedenle Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) içeren ampuanlarn uzun süre kafa derinizde kalmamas çok önemli, saçnz ampuanladktan sonra en fazla 2 dakika bekleyiniz. Daha fazla bekletirseniz Sodyum Laureth Sülfat saç derisinden emilerek vücudunuza girer.Sodyum laureth sülfat zararlar (Sodyum lauril sulfat, Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)) Adsense-Esnek cilt (ampuan ile saç derisinden) veya az yolu ile (di macunu) kan dolamna geçen Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) yüzde 1’in altnda bile alnnca insan salna zararldr. Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS); kan hücrelerinde toksik tesire, di etlerinin imesine, di eti hastalklarna, dilerin asitlere kar direncini azaltarak çürümelere ve alerjik reaksiyonlara zemin hazrlar. Ayrca aadaki zararl etkileri vardr.Kanser – Kanser oluturan dier kimyasallar ile reaksiyona girer ve kanser oluumunu hzlandrr.Endokrin (hormon) bozulmas – Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)/(SLES) (TEXAPON N40 IS) hormonlarn hareketini taklit edebilir ve günlük vücut fonksiyonlarmz kontrol eden ilikili mekanizmalar bozabilir; östrojen hormonunu taklit ederek üreme sistemini ve cinsel geliimi engelledii bilinmektedir;Göz bozulmas – Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) özellikle göz hücreleri tarafndan annda emilir (direkt göz temasyla deil, saç köklerinden doru emilerek); özellikle çocuklarda zararl etkisi ve geliimi gözlenmektedir;Saç dökülmesi – Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) saç foliküllerine zarar veren oldukça sert bir andrcdr;Ar cilt hassasiyeti – Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) alerjik reaksiyonlar arttrarak; zararl maddelere kar bir bariyer olarak hareket edebilme yeteneine sahip olan cilde zarar verir;Kuru cilt – Cildin nemini kaybettirerek cilt kuruluu yapar.ampuanlarda bulunan Sodyum Lauryl Sülfate (Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)) ve bunun olas sala zararl etkileri günümüze kadar basnda ve halk arasnda pek çok tartmaya konu olmu, bu nedenle bilimsel literatürde yaplm olan çok sayda aratrmada da yer almtr.Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’ler anyonik sürfaktan özellii tayan kimyasallar olmalar nedeniyle ampuan,deterjan ve sabunlara nemlendirici, köpürtücü ve yayc özellik kazandrr ve bu nedenle de bu ürünlerin içeriinde yer alrlar. Bunun dnda kremler, losyonlar, medikal preparatlar ve di macunu gibi ürünlerde de yer almakta metal üretiminde kullanlmaktadrlar.Ayrca kozmetiklerde temizleyici ajan olarak, gda katk maddesi olarak, insektisitlerde adjuvan olarak ve boya çkarclarda da kullanm mevcuttur.Endüstride geni bir kullanm alanna sahip olan Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’in kozmetik ürünlerde temizleyici ajan olarak kullanlmas bu ürünler vastasyla trnaklar, cilt, saç, yüz ve eller ile temasna yol açmaktadr.Bu temas sonucu oluabilecek olas salk etkilerine yönelik yaplm olan çalmalarda bulunan sonuçlar bu yazda özetlenilmeye çallacaktr.ritasyon; Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) ile yaplan çalmalarda tavanlarda göz ile temasta iritan özellikte olduu, insanlarda ise ciltte iritasyona yol açabildii(%20’lik konsantrasyonda olduunda ve 4 saatlik yama ile cilt uygulamas sonucunda) gözlenmitir. Bunun dnda özellikle tekrarlayan az ülseri olan insanlarda solunum yollarnda ve az mukozasnda iritasyona yol açabildii de gösterilmitir.Tekrarlayan Maruziyetin Yol Açt Etkiler; Oral gavaj yoluyla Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’nin uyguland farelerde gastrointestinal iritasyona yol açabildii ancak bu etkinin 100mg/kg bw/gün dozundan daha yüksek dozlarda ortaya çkt izlenmitir.Akut toksisitenin deerlendirildii çalmalarda Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’nin %0.21-26 arasnda deimekte olduu solüsyonlar kullanlm ve yukardaki sonuçlar elde edilmitir.Genotoksisite; Yaplm olan invivo ve invitro hayvan deneylerinde Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’nin genotoksik etkisi gösterilememitir. Bu çalmalar sonrasnda Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’nin genotoksik olmad ve DNA ile etkileime girmedii sonucuna ulalmtr.Sodyum lauril eter sülfatn ((SLES) (TEXAPON N40 IS)) (TEXAPON N40 IS) kabul edilen bir kaslmas olan Sodyum lauret sülfat ((SLES) (TEXAPON N40 IS)) (TEXAPON N40 IS), birçok kiisel bakm ürününde (sabunlar, ampuanlar, di macunu vb.) Bulunan anyonik bir deterjan ve yüzey aktif maddedir. (SLES) (TEXAPON N40 IS), ucuz ve çok etkili bir köpükletiricidir. [1] (SLES) (TEXAPON N40 IS), sodyum lauril sülfat (Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)), amonyum lauril sülfat (ALS) ve sodyum pareth sülfat, birçok kozmetik üründe temizleme ve emülsifiye etme özellikleri için kullanlan yüzey aktif maddelerdir. Hurma çekirdei ya veya hindistancevizi yandan elde edilir, kimyasal formülü CH3 (CH2) 11 (OCH2CH2) nOSO3Na’dr. Bazen n ile temsil edilen say isimde belirtilir, örnein laureth-2 sülfat. Ürün, etoksil gruplarnn saysnda heterojendir, burada n ortalamadr. Laureth-3 sülfat ticari ürünlerde yaygndr.(SLES) (TEXAPON N40 IS), endüstriyel olarak hurma çekirdei ya veya hindistancevizi yandan üretilen dodesil alkolün etoksilasyonu ile hazrlanr. Elde edilen etoksilat, sodyum tuzuna dönütürülerek nötrletirilen sülfürik asidin yar esterine dönütürülür. [1] lgili yüzey aktif madde sodyum lauril sülfat (ayn zamanda sodyum dodesil sülfat veya SDS olarak da bilinir) benzer ekilde ancak etoksilasyon adm olmadan üretilir. Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) ve amonyum lauril sülfat (ALS), tüketici ürünlerinde (SLES) (TEXAPON N40 IS)’in yaygn olarak kullanlan alternatifleridir. [1] ABD’deki testler, tüketici kullanm için güvenli olduunu göstermektedir. Avustralya hükümetinin Salk ve Yalanma Bakanl ve Ulusal Endüstriyel Kimyasallar Bildirim ve Deerlendirme Plan (NICNAS), (SLES) (TEXAPON N40 IS)’in DNA ile reaksiyona girmediini belirlemitir. [2] Tahri Dier birçok deterjan gibi, (SLES) (TEXAPON N40 IS) de tahri edicidir. [3] Hayvanlar ve insanlar üzerinde yaplan deneylerde (SLES) (TEXAPON N40 IS)’in göz veya cilt tahriine neden olduu da gösterilmitir. [3] lgili yüzey aktif madde Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS), bilinen bir tahri edicidir. [4] [5] [6] [7] 1,4-Dioksan kontaminasyonu (SLES) (TEXAPON N40 IS) içeren baz ürünler, eser miktarda (300 ppm’ye kadar) 1,4-dioksan içerir ve üretiminin etoksilasyon aamas srasnda bir yan ürün. 1,4-Dioksan, Uluslararas Kanser Aratrma Ajans tarafndan Grup 2B kanserojen olarak snflandrlmtr: muhtemelen insanlar için kanserojendir. Amerika Birleik Devletleri Gda ve laç Dairesi (FDA) bu seviyelerin izlenmesini tavsiye ediyor [8] ve üreticileri, federal yasalarca gerekli olmasa da 1,4-dioksan uzaklatrmaya tevik ediyor. [9] Sodyum Laureth Sülfat. BASF TEXAPON® N 40 IS, anyonik bir yüzey aktif maddedir. TEXAPON® N 40 IS, ampuanlarda ve köpük banyosunda kullanlr.Texapon N 40 INCI Sodyum Laureth Sülfat RENK Saman sars TANIM: Formaldehit ile stabilize edilmi sulu sodyum lauril sülfat çözeltisi ÇÖZÜNÜRLÜK: Su ile tamamen karr ampuanlarda ve köpük banyosu müstahzarlarnda kullanlr, çeitli su sertliklerine kaytszdr, düük scaklklarda bile köpürme gücünü kaybetmez.Mükemmel slatma ve emülsifiye etme özellikleri ve yüksek cilt uyumluluu için hem kozmetik hem de dermokimyasal kullanm için önde gelen bir hammaddedir. ve slanabilirlik, kozmetik ve ilaç endüstrisinde yaygn olarak kullanlmasn salar, katk maddelerinin çounu destekler ve dier yüzey aktif maddelerle, özellikle de Tegobetaine ile kartrlabilir, bu bileen son hazrl çok fazla yumuatr ve gücü azaltr Texapon tahri edici n40 Renk ve aroma eklemek çok kolay, Banyo jelleri, ampuanlar ve sv sabunlarda% 25 ila% 50 dozaj TEXAPON N 40 IS T BASF / Cognis Sodyum Laureth Sulf yemek yedi. Anyonik Sürfaktan Berrak ve sedefli orta ila yüksek viskoziteli ampuanlar ve banyo ve du ürünleri için beyazdan kirli beyaza macun. Neden Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)? Cildimizde ykama veya güzellik ürünü kullandmzda, muhtemelen su faz ve yal bir svdr. evre. Bildiimiz gibi, ya ve su birbirine karmaz, bu nedenle malzemeleri bir arada tutmak için bir ey gerekir. Buna yüzey aktif madde denir. Bir yüzey aktif madde, ya ve su moleküllerinin birbirine balanmasna izin verir – sabunlarda ve deterjanlarda bulunan eydir, böylece yal yüzlerimizi veya bulaklarmz suyla ykayabilir ve kirin kaybolmasn salayabiliriz. Sodyum lauril sülfat bir yüzey aktif maddedir ve etkinlii, düük maliyetlidir. , bolluk ve basitlik, çeitli kozmetik, dermatolojik ve tüketici ürünlerinde kullanld anlamna gelir Zararl m? Cildimizin en d tabakas, zararl maddeleri darda tutmak için özel olarak tasarlanmtr ve buras, bir yüzey aktif maddenin sorunlara neden olabilecei yerdir. Bu savunma mekanizmasn zayflatan bir kimyasal kullanmak potansiyel olarak cildimize zarar verebilir ve baz yüzey aktif maddeler cildimizi dierlerinden daha fazla tahri edicidir. Bir eyin zararl, tahri edici veya alerjenik olmas için iki kriteri yerine getirmesi gerekir: nsan cildini tahri ettii çalmalarda bulunmal ve cilde nüfuz etme kabiliyetine sahip olmaldr. Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) bu kutularn her ikisini de iaretliyor.Almanya’dan aratrmaclar 1.600 hastay Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) tahrii için test etti ve test edilen hastalarn% 42’sinin tahri edici bir reaksiyon gösterdiini buldu. Üç buçuk aylk bir süre boyunca yedi gönüllü üzerinde yaplan bir baka çalmada, düzenli temasn tahrie neden olduu bulundu. ve cilt artk Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’ye maruz kalmadnda tahri azald. Baka bir çalma, suyun daha scak olduunu buldu.Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) ile kullanldnda daha fazla rahatsz edici olacaktr. Aslnda, Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’nin tahrie neden olduu o kadar bilinir ki, dermatolojik testlerde pozitif bir kontrol olarak kullanlr. Yani, insan cildi için ne kadar tahri edici olabileceklerini görmek için test edilen yeni ürünler Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) ile karlatrlr – kesinlikle tahri edici olduunu biliyoruz. Bir kii Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’ye duyarlysa, temas ettii alan krmz bulabilir. nternette okuyabileceklerinize ramen, Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’nin kansere neden olduuna dair bilimsel kant bulunmadna dikkat etmek önemlidir.Öyleyse neden izin veriliyor? Öyleyse, insan cildini tahri ettii biliniyorsa, neden Düzenleyici makamlar kullanmn yasaklamyor mu? Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’nin tehlikeli olarak kabul edilebilmesi için uzun süre ciltle temas halinde olmas gerekir. Genel olarak, Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) içeren ykama ürünleri gibi tüketici ürünlerinde, ciltte çok uzun süre kalmayaca varsaylr, bu da cildinizin etkilenme olaslnn oldukça düük olduu anlamna gelir. Bu nedenle yetkililer, kullanmn yasaklamaz, bunun yerine ürünlerde kullanlabilecei maksimum yüzdeyi snrlar. Bu snr, ürünün ciltle ne kadar süre temas halinde kalacana bal olarak deiir. Bu nedenle, uzun süre ciltte kalacak ürünler çou ülkede% 0,05-2,5’ten fazla Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) içeremez.Tüm tüketici ve kozmetik ürün üreticilerinin kapsaml testler yapmalar ve olumsuz bulgular üzerlerinde uyarlar eklinde dahil etmeleri gerekir. etiketler. Dolaysyla, Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) içeren ürünlerde, “Bu ürün ciltte kzarklk veya tahrie neden olursa, kullanmay brakn ve bir tp doktoruna dann” gibi bir ey görmelisiniz. Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’den kimler kaçnmal? Hassas cilt öyküsü, ar iritable cilt öyküsü olan kiiler ve atopik dermatit (egzama), rosacea ve sedef hastal gibi cilt rahatszlklarndan muzdarip hastalar, Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) içeren ürünlerden kaçnmak için en iyisidir. etikette etoksilat veya ya asidi alkoksilat). Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’nin cilt tahriine neden olabileceini düünüyorsanz, ürünü kullanmay brakn ve eczacnza veya doktorunuza dann. Cilt bakm ürünleri ayrca, olumsuz etkileri bildirmek için iletiim kurulabilecek ambalaj üzerinde yardm hatt numaralarna da sahiptir. Sodyum lauret sülfat, bir yüzey aktif madde veya yüzey aktif maddedir. Tüm yüzey aktif maddeler ksmen suda çözünür ve ksmen yada çözünür. Normalde birbirine karmayan petrol ve suyun dalmasna izin veren bu kalitedir.Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS), “yüzey aktif madde” olarak bilinir. Bu, bileenler arasndaki yüzey gerilimini düürdüü anlamna gelir, bu yüzden bir temizlik ve köpürme ajan olarak kullanlr.Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) ile ilgili endielerin çou, güzellik ve kiisel bakm ürünlerinde olduu kadar ev temizleyicilerinde de bulunabilecei gerçeinden kaynaklanmaktadr. laureth sülfat ((SLES) (TEXAPON N40 IS)) (TEXAPON N40 IS), benzer bir kimyasal formüle sahip bir yüzey aktif maddedir. Bununla birlikte, (SLES) (TEXAPON N40 IS), Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’den daha hafif ve daha az tahri edicidir. 1983 ylnda International Journal of Toxicology’de yaynlanan Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’nin kozmetik ve vücut ürünlerinde kullanm ile ilgili güvenlik deerlendirme çalmas (en son deerlendirme), kullanlmas halinde zararl olmadn ortaya koymutur. ksa bir süre ve ampuan ve sabunlarda olduu gibi ciltten durulanr.Raporda, ciltte daha uzun süre kalan ürünlerin yüzde 1 Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) konsantrasyonunu amamas gerektii belirtiliyor, ancak ayn deerlendirme, insanlar için minimum da olsa baz riskler olduunu gösteriyor. Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) kullanarak. Örnein, baz testler cildin sürekli olarak Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’ye maruz kalmasnn hayvanlarda hafif ila orta derecede tahrie neden olabileceini buldu. Bununla birlikte, deerlendirme Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS)’nin kozmetik ve kiisel bakm ürünlerinde kullanlan formülasyonlarda güvenli olduu sonucuna vard. Bu ürünlerin birçou ksa uygulamalardan sonra durulanmak üzere tasarlandndan, riskler minimum düzeydedir.Çou aratrmaya göre Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) tahri edicidir ancak kanserojen deildir. Çalmalar, Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS) kullanm ile artan kanser riski arasnda bir balant olmadn göstermitir. 2015 çalmasna göre Sodyum Lauril Sülfat (SLES) (TEXAPON N40 IS), ev temizlik ürünlerinde kullanm için güvenlidir.