Statistical mechanics of crystal nuclei of hard spheres.

IF 3.1 2区 化学 Q3 CHEMISTRY, PHYSICAL Journal of Chemical Physics Pub Date : 2024-11-14 DOI:10.1063/5.0226862
Marjolein de Jager, Carlos Vega, Pablo Montero de Hijes, Frank Smallenburg, Laura Filion
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Abstract

In the study of crystal nucleation via computer simulations, hard spheres are arguably the most extensively explored model system. Nonetheless, even in this simple model system, the complex thermodynamics of crystal nuclei can sometimes give rise to counterintuitive results, such as the recent observation that the pressure inside a critical nucleus is lower than that of the surrounding fluid, seemingly clashing with the strictly positive Young-Laplace pressure we would expect in liquid droplets. Here, we re-derive many of the founding equations associated with crystal nucleation and use the hard-sphere model to demonstrate how they give rise to this negative pressure difference. We exploit the fact that, in the canonical ensemble, a nucleus can be in a (meta)stable equilibrium with the fluid and measure the surface stress for both flat and curved interfaces. Additionally, we explain the effect of defects on the chemical potential inside the crystal nucleus. Finally, we present a simple, fitted thermodynamic model to capture the properties of the nucleus, including the work required to form critical nuclei.

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硬球晶核的统计力学。
在通过计算机模拟研究晶体成核的过程中,硬球可以说是探索最广泛的模型系统。然而,即使在这个简单的模型系统中,晶体核的复杂热力学有时也会产生一些反直觉的结果,例如最近观察到临界核内部的压力低于周围流体的压力,这似乎与我们在液滴中预期的严格正Young-Laplace压力相冲突。在此,我们重新推导了许多与晶体成核相关的基础方程,并使用硬球模型来证明它们是如何产生这种负压差的。我们利用了一个事实,即在典型集合中,晶核可以与流体处于(元)稳定平衡状态,并测量了平面和曲面界面的表面应力。此外,我们还解释了缺陷对晶核内部化学势的影响。最后,我们提出了一个简单的拟合热力学模型来捕捉晶核的特性,包括形成临界晶核所需的功。
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来源期刊
Journal of Chemical Physics
Journal of Chemical Physics 物理-物理:原子、分子和化学物理
CiteScore
7.40
自引率
15.90%
发文量
1615
审稿时长
2 months
期刊介绍: The Journal of Chemical Physics publishes quantitative and rigorous science of long-lasting value in methods and applications of chemical physics. The Journal also publishes brief Communications of significant new findings, Perspectives on the latest advances in the field, and Special Topic issues. The Journal focuses on innovative research in experimental and theoretical areas of chemical physics, including spectroscopy, dynamics, kinetics, statistical mechanics, and quantum mechanics. In addition, topical areas such as polymers, soft matter, materials, surfaces/interfaces, and systems of biological relevance are of increasing importance. Topical coverage includes: Theoretical Methods and Algorithms Advanced Experimental Techniques Atoms, Molecules, and Clusters Liquids, Glasses, and Crystals Surfaces, Interfaces, and Materials Polymers and Soft Matter Biological Molecules and Networks.
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