单组分和双组分流体界面压力各向异性的分子解剖：界面张力的局部热力学描述

arXiv - PHYS - Soft Condensed Matter Pub Date : 2024-08-30 DOI:arxiv-2408.17038

Takeshi Omori, Yasutaka Yamaguchi

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引用次数: 0

摘要

通过将压力分解为动力学贡献和分子间贡献，我们证明了作为界面张力来源的流体界面压力各向异性完全来自于分子间贡献。通过对液-汽和液-液界面的分子动力学模拟，我们证明了范德瓦耳斯密度梯度理论（DGT）给出了非均相体系中自由能密度的前阶近似值，忽略了托尔曼长度。

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Molecular anatomy of the pressure anisotropy in the interface of one and two component fluids: local thermodynamic description of the interfacial tension

Through the decomposition of the pressure into the kinetic and the intermolecular contributions, we show that the pressure anisotropy in the fluid interface, which is the source of the interfacial tension, comes solely from the latter contribution. The pressure anisotropy due to the intermolecular force between the fluid particles in the same or the different fluid components is approximately proportional to the multiplication of the corresponding fluid density gradients, and from the molecular dynamics simulation of the liquid-vapor and liquid-liquid interfaces, we demonstrate that the density gradient theory (DGT) by van der Waals gives the leading order approximation of the free energy density in inhomogeneous systems, neglecting the Tolman length.

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arXiv - PHYS - Soft Condensed Matter

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