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Main Authors: Shmotolokha, Volodymyr, Maier-Borst, Jonas, Vis, Mark, Kuhnhold, Anja, Tuinier, Remco
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.23922
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author Shmotolokha, Volodymyr
Maier-Borst, Jonas
Vis, Mark
Kuhnhold, Anja
Tuinier, Remco
author_facet Shmotolokha, Volodymyr
Maier-Borst, Jonas
Vis, Mark
Kuhnhold, Anja
Tuinier, Remco
contents We review the literature on scaled particle theory (SPT) and its extensions and discuss results applied to describe the thermodynamics of hard particle mixtures. After explaining the basic concepts of scaled particle theory to compute the free energy of immersing a particle into a mixture, examples are discussed for the simple case of a hard sphere dispersion and the free volume fraction of ghost spheres in a hard sphere dispersion. Next, the concept is applied to mixtures, and general expressions are shown that relate the free volume fraction in mixtures to the key thermodynamic properties, such as the chemical potential(s) and (osmotic) pressure. Subsequently, it is revealed how these concepts can be extended towards multi-component systems. It is shown that free volume fractions provide chemical potentials and total pressure of multi-component mixtures, and thereby yield the full equation of state. We present novel results for ternary particle dispersions composed of hard spherocylinders and two types of hard spheres differing in size. Throughout, we show the accuracy of SPT by comparing the results with those of Monte Carlo computer simulations.
format Preprint
id arxiv_https___arxiv_org_abs_2506_23922
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Thermodynamics of Hard Sphere and Spherocylinder Mixtures -- Scaled Particle Theory and Monte Carlo Simulations
Shmotolokha, Volodymyr
Maier-Borst, Jonas
Vis, Mark
Kuhnhold, Anja
Tuinier, Remco
Soft Condensed Matter
We review the literature on scaled particle theory (SPT) and its extensions and discuss results applied to describe the thermodynamics of hard particle mixtures. After explaining the basic concepts of scaled particle theory to compute the free energy of immersing a particle into a mixture, examples are discussed for the simple case of a hard sphere dispersion and the free volume fraction of ghost spheres in a hard sphere dispersion. Next, the concept is applied to mixtures, and general expressions are shown that relate the free volume fraction in mixtures to the key thermodynamic properties, such as the chemical potential(s) and (osmotic) pressure. Subsequently, it is revealed how these concepts can be extended towards multi-component systems. It is shown that free volume fractions provide chemical potentials and total pressure of multi-component mixtures, and thereby yield the full equation of state. We present novel results for ternary particle dispersions composed of hard spherocylinders and two types of hard spheres differing in size. Throughout, we show the accuracy of SPT by comparing the results with those of Monte Carlo computer simulations.
title Thermodynamics of Hard Sphere and Spherocylinder Mixtures -- Scaled Particle Theory and Monte Carlo Simulations
topic Soft Condensed Matter
url https://arxiv.org/abs/2506.23922