胶束解离动力学的动态表面张力研究

V.B. Fainerman, A.V. Makievski
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引用次数: 16

摘要

采用现代计算机化仪器,采用最大气泡压力法测量了十四烷基硫酸钠和十六烷基硫酸钠溶液在水和Triton X-100溶液中的动态表面,其表面寿命范围从0.001到10秒,温度范围从30到80°C,表面活性剂浓度范围从1到200 CMC。在先前提出的离子源表面活性剂胶束溶液吸附动力学理论的基础上(V.B. Fainerman, Colloids Surfaces, 62(1992) 333),开发了一种计算胶束解离速率常数k的方法。对于所研究的表面活性剂,k随着浓度的增加而增加。此外,对于离子表面活性剂,k对浓度(C)的依赖性对C>更为明显;CMC(10 - 30)。这可以用胶束形状的转变和胶束中分子间排斥的加强来解释。在离子表面活性剂溶液中,k常数随温度的升高而增加,而在Triton X-100溶液中则不存在温度依赖性。这种现象与胶束中离子性和非离子性表面活性剂分子相互作用的不同性质有关。从动态表面张力测量结果中得到的k值与先前发表的胶束溶液弛豫研究结果一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Micelle dissociation kinetics study by dynamic surface tension of micellar solutions

The dynamic surface of sodium tetradecylsulphate and sodium bexadecylsulphate solutions in water and also in Triton X-100 solutions was measured by the maximum bubble-pressure method, using modern computerized instrumentation, for a wide range of surface lifetimes (from 0.001 to 10 s), temperatures (from 30 to 80°C) and surfactant concentrations (from 1 to 200 CMC). On the basis of a previously suggested adsorption kinetics theory for micellar solutions of ionogenic surfactants (V.B. Fainerman, Colloids Surfaces, 62 (1992) 333) a method was developed for the calculation of the micellar dissociation rate constant k. For the surfactants studied, k increases with increasing concentration. Moreover, for ionic surfactants the dependence of k on concentration (C) becomes more striking for C> (10–30) CMC. This can be explained by a micelle shape transition and by a strengthening of the intermolecular repulsion in micelles. In solutions of the ionic surfactants the constant k increasing with increasing temperature, whereas in Triton X-100 solutions a temperature dependence is absent. This phenomenon is associated with the different nature of the molecular interactions for ionogenic and non-ionogenic surfactants in micelles. The k values, obtained from results of dynamic surface tension measurements, are in satisfactory agreement with the results of a study of the relaxation of micellar solutions published previously.

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