Effect of Adding Lecithin and Nonionic Surfactant on α-Gels Based on a Cationic Surfactant-Fatty Alcohol Mixture

α-Gels are often used as base materials for cosmetics and hair conditioners. α-Gel-based commercial products typically contain many types of additives, such as polymers, electrolytes, oily components, and other surfactants, in addition to the three basic components. However, few systematic studies h...

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Veröffentlicht in:	Journal of Oleo Science 2021, Vol.70(1), pp.67-76
Hauptverfasser:	Aramaki, Kenji, Matsuura, Yuka, Kawahara, Katsuki, Matsutomo, Daisuke, Konno, Yoshikazu
Format:	Artikel
Sprache:	eng
Schlagworte:	Additives bilayer structure Cations Cetrimonium - chemistry Cosmetics Electrolytes Fatty Alcohols - chemistry Gels Hair conditioners Interlayers Lecithin Lecithins - chemistry Optical microscopy Rheological properties rheological property Rheology Small angle X ray scattering Soybeans Surface-Active Agents - chemistry surfactant self-assembly Surfactants Viscosity Yield stress α-gel
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creator	Aramaki, Kenji Matsuura, Yuka Kawahara, Katsuki Matsutomo, Daisuke Konno, Yoshikazu
description	α-Gels are often used as base materials for cosmetics and hair conditioners. α-Gel-based commercial products typically contain many types of additives, such as polymers, electrolytes, oily components, and other surfactants, in addition to the three basic components. However, few systematic studies have been conducted on the effect of such additives on α-gels. In this study, we chose surfactant as an example to initiate the effect of such additives on the structure and rheological properties of α-gel samples formulated using cetyl alcohol (C16OH) and cetyltrimethylammonium chloride (CTAC). Optical microscopy analysis demonstrated that the size of the vesicles in the α-gel samples in this study was decreased via the addition of hydrogenated soybean lecithin (HSL) and penta(oxyethylene) cetyl ether (C16EO5), a nonionic surfactant, to them. Rheological measurements revealed that at high C16OH/CTAC ratios, the viscosity and yield stress of the α-gel samples decreased owing to the addition of surfactants to them. Conversely, at low C16OH/CTAC ratios, the opposite tendency was observed. Small-angle X-ray scattering analysis indicated that for the α-gel samples with high C16OH/CTAC ratios, the addition of HSL or C16EO5 to them decreased the interlayer spacing of their lamellar bilayer stack, which led to the changes in the rheological properties of the α-gel samples.
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subjects	Additives bilayer structure Cations Cetrimonium - chemistry Cosmetics Electrolytes Fatty Alcohols - chemistry Gels Hair conditioners Interlayers Lecithin Lecithins - chemistry Optical microscopy Rheological properties rheological property Rheology Small angle X ray scattering Soybeans Surface-Active Agents - chemistry surfactant self-assembly Surfactants Viscosity Yield stress α-gel
title	Effect of Adding Lecithin and Nonionic Surfactant on α-Gels Based on a Cationic Surfactant-Fatty Alcohol Mixture
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