New Physicochemical Methodology for the Determination of the Surface Thermodynamic Properties of Solid Particles

T. Hamieh
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引用次数: 3

Abstract

The study of the surface thermodynamic properties of solid materials is primordial for the determination of the dispersive surface energy, polar enthalpy of adsorption and Lewis’s acid base properties of solid particles. The inverse gas chromatography technique (IGC) at infinite dilution is the best surface technique for the determination of the surface physicochemical properties of materials. (1) Background: This paper was devoted to studying the surface properties of solid materials, such as alumina, titania and silica particles, using the IGC technique. (2) Methods: Different methods and molecular models, such as the spherical, cylindrical, Van der Waals, Redlich–Kwong, Kiselev and geometric models, were used to determine the London dispersive surface energy of solid surfaces. The Hamieh model was also used and highlighted the thermal effect on the surface area of solvents. (3) Results: The variations of the dispersive surface energy and the free energy of adsorption were determined for solid particles as a function of the temperature, as well as their Lewis’s acid base constants. Alumina surfaces were proved to exhibit a strong Lewis amphoteric character three times more basic than acidic, titanium dioxide more strongly basic than acidic and silica surface exhibited the stronger acidity. (4) Conclusions: The new methodology, based on the Hamieh model, gave the more accurate results of the physicochemical properties of the particle surfaces.
测定固体颗粒表面热力学性质的新物理化学方法
固体材料表面热力学性质的研究是测定固体颗粒的色散表面能、极性吸附焓和路易斯酸碱性质的基础。无限稀释反相气相色谱技术(IGC)是测定材料表面物理化学性质的最佳表面技术。(1)背景:本论文致力于利用IGC技术研究固体材料,如氧化铝、二氧化钛和二氧化硅颗粒的表面特性。(2)方法:采用球形模型、圆柱形模型、Van der Waals模型、Redlich-Kwong模型、Kiselev模型和几何模型等不同的方法和分子模型来确定固体表面的伦敦色散表面能。采用了Hamieh模型,强调了溶剂表面积的热效应。(3)结果:测定了固体颗粒的色散表面能和吸附自由能随温度及其路易斯酸碱常数的变化规律。结果表明,氧化铝表面具有比酸性强3倍的Lewis两性性,二氧化钛表面具有比酸性强的碱性,二氧化硅表面具有更强的酸性。(4)结论:基于Hamieh模型的新方法对颗粒表面的物理化学性质给出了更准确的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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