苯 + 环己烷混合物中热扩散的分子起源

Molecular origin of thermal diffusion in benzene + cyclohexane mixtures.

作者信息

Debuschewitz C, Köhler W

机构信息

Physikalisches Institut, Universität Bayreuth, D-95440 Bayreuth, Germany.

出版信息

Phys Rev Lett. 2001 Jul 30;87(5):055901. doi: 10.1103/PhysRevLett.87.055901. Epub 2001 Jul 12.

DOI:10.1103/PhysRevLett.87.055901

PMID:11497788

Abstract

The isotope effect in thermal diffusion (Soret effect) of benzene+cyclohexane mixtures has been investigated by a holographic grating technique. The Soret coefficient can be split into additive contributions. One contribution, the isotope effect, stems from the differences of both mass and moment of inertia, and is independent of composition. An additional "chemical" contribution depends on concentration and even changes its sign at a benzene mole fraction x(benz) approximately 0.7. The mass effect is in agreement with molecular dynamics calculations: the heavier component migrates to the cold side.

摘要

采用全息光栅技术研究了苯 + 环己烷混合物热扩散中的同位素效应（索雷特效应）。索雷特系数可分解为累加贡献。一种贡献，即同位素效应，源于质量和转动惯量的差异，且与组成无关。另一种“化学”贡献则取决于浓度，甚至在苯摩尔分数x(苯)约为0.7时改变其符号。质量效应与分子动力学计算结果相符：较重的组分迁移至冷端。

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苯 + 环己烷混合物中热扩散的分子起源

Molecular origin of thermal diffusion in benzene + cyclohexane mixtures.

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