290K下甘油单硬脂酸酯在混合有机溶剂中的超声速度和临界胶束浓度

Q4 Materials Science

Journal of Surface Science and Technology Pub Date : 2019-06-25 DOI:10.18311/JSST/2019/16349

K. Sharma, S. Negi, K. Kishore

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引用次数: 0

摘要

单硬脂酸甘油酯（GMS）在80/20（%v/v）苯-甲醇混合物中在290K下不同浓度下的密度、粘度、超声速度和折射率测量表明，在临界胶束浓度（CMC）下，非离子表面活性剂的聚集存在显著变化。密度和粘度的结果已经用一些著名的方程得到了令人满意的解释，即Jones Dole、Moulik、Vand、Einstein和Root。Jacobson模型已被用于评估绝热压缩性、摩尔压缩性、溶剂化数摩尔声速、弛豫强度、相对缔合和其他相关声学常数。折射率随GMS溶液浓度的变化在CMC处显示出显著的值变化。对密度、粘度、超声速度和折射率测量数据的处理表明，GMS和溶剂分子之间存在强烈的相互作用，并且GMS分子在预胶束化区域不会显著聚集。

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Ultrasonic Velocity and Critical Micellar Concentration of Glycerol Monostearate in Mixed Organic Solvent at 290 K

Density, viscosity, ultrasonic velocity and refractive index measurements of Glycerol Monostearate (GMS) in 80/20 (% v/v) benzene-methanol mixture at 290 K with varying concentrations have shown that there is noticeable variation in aggregation of non-ionic surfactant at Critical Micellar Concentration (CMC). Density and viscosity results have been satisfactorily explained by some well-known equations viz. Jones-Dole, Moulik, Vand, Einstein and Root. Jacobson model has been used to evaluate adiabatic compressibility, molar compressibility, solvation number molar sound velocity, relaxation strength, relative association and other allied acoustical constants. The variation of refractive index with concentration of GMS solutions shows a marked change in value at CMC. Treatment of data obtained from density, viscosity, ultrasonic velocity and refractive index measurements has shown that strong interaction exists between GMS and solvent molecules, and GMS molecules do not aggregate considerably in pre-micellization region.

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来源期刊

Journal of Surface Science and Technology PHYSICS, APPLIED-

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期刊介绍： The Indian Society for Surface Science and Technology is an organization for the cultivation, interaction and dissemination of knowledge in the field of surface science and technology. It also strives to promote Industry-Academia interaction