The strong specific effect of coions on micellar growth from molecular-thermodynamic theory

Viscoelastic solutions of ionic surfactants with an added salt exhibit a surprisingly strong dependence of their behavior on the nature of the added coion. We apply a recently proposed molecular-thermodynamic model to elucidate the effect of a coion's specificity on the aggregation of cationic...

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Veröffentlicht in:	Physical chemistry chemical physics : PCCP 2014-09, Vol.16 (33), p.17422-17425
Hauptverfasser:	Koroleva, S. V, Victorov, A. I
Format:	Artikel
Sprache:	eng
Schlagworte:	Agglomeration Cationic Dispersions Hydration Maxima Micelles Salinity Surfactants
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creator	Koroleva, S. V Victorov, A. I
description	Viscoelastic solutions of ionic surfactants with an added salt exhibit a surprisingly strong dependence of their behavior on the nature of the added coion. We apply a recently proposed molecular-thermodynamic model to elucidate the effect of a coion's specificity on the aggregation of cationic and anionic surfactants. We show that micellar growth and branching are opposed by penetration of coions inside a micelle's corona leading to an increase of the aggregate's preferential curvature. These effects result from hydration/dehydration and dispersion attraction of coions and are only important at high salinity where electrostatic repulsion of coions from the micelle is screened and where branching of micelles and viscosity maxima are observed. At low and medium salinity, the coion plays a minor role; its effect on critical micelle concentration and sphere-to-rod transitions is insignificant. Our molecular-thermodynamic approach describes the specific effects of both counterions and coions and their different roles at different salinity levels based on a unified physical picture. At high salinity, penetrating coions inhibit micellar growth and may induce or shift the viscosity maximum.
doi_str_mv	10.1039/c4cp02178a
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These effects result from hydration/dehydration and dispersion attraction of coions and are only important at high salinity where electrostatic repulsion of coions from the micelle is screened and where branching of micelles and viscosity maxima are observed. At low and medium salinity, the coion plays a minor role; its effect on critical micelle concentration and sphere-to-rod transitions is insignificant. Our molecular-thermodynamic approach describes the specific effects of both counterions and coions and their different roles at different salinity levels based on a unified physical picture. 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subjects	Agglomeration Cationic Dispersions Hydration Maxima Micelles Salinity Surfactants
title	The strong specific effect of coions on micellar growth from molecular-thermodynamic theory
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