The behaviour of surfactants in concentrated acids 6. Micellization and interfacial behaviour of n-hexadecyltrimethylammonium bromide in mixtures of methane sulphonic acid and concentrated sulphuric acid

Annerose Müller, Steffen Giersberg
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引用次数: 4

Abstract

The surface and interfacial activity of cationic surfactants depends on the polarity of the bulk phase. If concentrated sulphuric acid is mixed with water, physical properties such as density, and surface and interfacial tension go through a maximum as the molar composition is changed. Also the properties of surfactants, i.e. surface activity and CMC, do not vary linearly in such aqueous mixtures. However, if concentrated sulphuric acid is mixed with methane sulphonic acid we find a linear relationship.

The adsorption isotherms of n-hexadecyltrimethylammonium bromide at the surface (interface) of mixtures of H2SO4 and CH3SO3H/air (n-hexane) and the CMC were determined for various compositions of the acid phase and approximated by the Von Szyskowski equation. The change in the energy of micelle formation, — ΔMG, and the energy of adsorption, — ΔAG°, were calculated as a function of solvent composition. The surface concentration as a function of bulk concentration, the maximum surface coverage and the percentage surface concentration were also calculated.

We found a linear dependence of the CMC, and of the lowering of σ and γ at the CMC, on the mole fraction of the acid phase. Also the constant A of the Von Szyskowski equation decreases and the logarithm of B increases linearly with the mole fraction of methane sulphonic acid. Therefore it is possible to calculate all the data needed for the characterization of systems of different acid composition. A special pattern was found for acid mixtures with XCH3SO3H < 0.1. This can be explained by the transformation of micelle structure and the possibility that micelles can solubilize hydrocarbons in this region.

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表面活性剂在浓酸中的行为正十六烷基三甲基溴化铵在甲烷磺酸和浓硫酸混合物中的胶束化和界面行为
阳离子表面活性剂的表面和界面活性取决于体相的极性。如果浓硫酸与水混合,随着摩尔组成的改变,密度、表面和界面张力等物理性质会达到最大值。此外,表面活性剂的性质,即表面活性和CMC,在这种水性混合物中不呈线性变化。然而,如果浓硫酸与甲烷磺酸混合,我们发现两者呈线性关系。测定了正十六烷基三甲基溴化铵在H2SO4和CH3SO3H/空气混合物(正己烷)和CMC表面(界面)的吸附等温线,并用Von Szyskowski方程近似计算了不同酸相组成下的吸附等温线。计算了胶束形成能的变化- ΔMG和吸附能- ΔAG°作为溶剂组成的函数。计算了表面浓度随体积浓度的变化规律、最大表面覆盖率和表面浓度百分比。我们发现CMC和CMC处σ和γ的降低与酸相的摩尔分数呈线性关系。随着甲烷磺酸摩尔分数的增加,Von Szyskowski方程的常数A减小,B的对数线性增加。因此,有可能计算出表征不同酸组成体系所需的所有数据。在与XCH3SO3H <的酸混合物中发现了一种特殊的模式;0.1. 这可以用胶束结构的转变和胶束在该区域溶解碳氢化合物的可能性来解释。
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