Effect of Counterion and Configurational Entropy on the Surface Tension of Aqueous Solutions of Ionic Surfactant and Electrolyte Mixtures

Effect of Counterion and Configurational Entropy on the Surface Tension of Aqueous Solutions of Ionic Surfactant and Electrolyte Mixtures

In order to clarify the adsorption behavior of cationic surfactants on the air/aqueous electrolyte solution surface, we derived the theoretical equation for the surface tension. The equation includes the electrical work required for charging the air/water surface and the work attributable to the con...

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Main Authors: Youichi Takata, Hiroaki Tagashira, Atsushi Hyono, Hiroyuki Ohshima
Format: Article
Language:English
Published: MDPI AG 2010-04-01
Series:Entropy
Subjects:
surface tension
Helmholtz free energy
configurational entropy
adsorption constant
binding constant
Online Access:http://www.mdpi.com/1099-4300/12/4/983/
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spelling doaj-58b060a742be4920bb40fee299e3feb62020-11-24T22:59:37ZengMDPI AGEntropy1099-43002010-04-0112498399510.3390/e12040983Effect of Counterion and Configurational Entropy on the Surface Tension of Aqueous Solutions of Ionic Surfactant and Electrolyte MixturesYouichi TakataHiroaki TagashiraAtsushi HyonoHiroyuki OhshimaIn order to clarify the adsorption behavior of cationic surfactants on the air/aqueous electrolyte solution surface, we derived the theoretical equation for the surface tension. The equation includes the electrical work required for charging the air/water surface and the work attributable to the configurational entropy in the adsorbed film. By fitting the equation to the experimental data, we determined the binding constant between adsorbed surfactant ion and counterion, and found that the bromide ions, rather than the chloride ions, are preferentially adsorbed by the air/water surface. Furthermore, it was suggested that the contribution of configurational entropy to the surface tension is predominant in the presence of electrolytes because of the increase in the surface density of surfactant molecules associated with decreasing the repulsive interaction between their hydrophilic groups. http://www.mdpi.com/1099-4300/12/4/983/surface tensionHelmholtz free energyconfigurational entropyadsorption constantbinding constant
collection DOAJ
language English
format Article
sources DOAJ
author Youichi Takata
Hiroaki Tagashira
Atsushi Hyono
Hiroyuki Ohshima
spellingShingle Youichi Takata
Hiroaki Tagashira
Atsushi Hyono
Hiroyuki Ohshima
Effect of Counterion and Configurational Entropy on the Surface Tension of Aqueous Solutions of Ionic Surfactant and Electrolyte Mixtures
Entropy
surface tension
Helmholtz free energy
configurational entropy
adsorption constant
binding constant
author_facet Youichi Takata
Hiroaki Tagashira
Atsushi Hyono
Hiroyuki Ohshima
author_sort Youichi Takata
title Effect of Counterion and Configurational Entropy on the Surface Tension of Aqueous Solutions of Ionic Surfactant and Electrolyte Mixtures
title_short Effect of Counterion and Configurational Entropy on the Surface Tension of Aqueous Solutions of Ionic Surfactant and Electrolyte Mixtures
title_full Effect of Counterion and Configurational Entropy on the Surface Tension of Aqueous Solutions of Ionic Surfactant and Electrolyte Mixtures
title_fullStr Effect of Counterion and Configurational Entropy on the Surface Tension of Aqueous Solutions of Ionic Surfactant and Electrolyte Mixtures
title_full_unstemmed Effect of Counterion and Configurational Entropy on the Surface Tension of Aqueous Solutions of Ionic Surfactant and Electrolyte Mixtures
title_sort effect of counterion and configurational entropy on the surface tension of aqueous solutions of ionic surfactant and electrolyte mixtures
publisher MDPI AG
series Entropy
issn 1099-4300
publishDate 2010-04-01
description In order to clarify the adsorption behavior of cationic surfactants on the air/aqueous electrolyte solution surface, we derived the theoretical equation for the surface tension. The equation includes the electrical work required for charging the air/water surface and the work attributable to the configurational entropy in the adsorbed film. By fitting the equation to the experimental data, we determined the binding constant between adsorbed surfactant ion and counterion, and found that the bromide ions, rather than the chloride ions, are preferentially adsorbed by the air/water surface. Furthermore, it was suggested that the contribution of configurational entropy to the surface tension is predominant in the presence of electrolytes because of the increase in the surface density of surfactant molecules associated with decreasing the repulsive interaction between their hydrophilic groups.
topic surface tension
Helmholtz free energy
configurational entropy
adsorption constant
binding constant
url http://www.mdpi.com/1099-4300/12/4/983/
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