Entropy in self-assembly

Francesco Sciortino
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Abstract

Colloidal systems show beautiful examples of how entropy can lead to self-assembly of ordered structures, challenging our perception of disorder. In fact, dispersion of hard colloidal particles, systems in which by default entropy is the only thermodynamic driving force, displays both translational and orientational order on increasing density. Entropy is also a fundamental concept for describing effective interactions between colloidal particles. In several cases, entropy maximization generates strong attractive forces, capable of inducing condensation and sometimes crystallization. These entropic forces can even be exploited to drive colloids in specific locations or to orient them in the build-up of supracolloidal aggregates. Depletion interactions and combinatorial contributions are two important manifestations of these forces. Entropy also plays a leading role in systems exploring the bottom of their potential energy surface. In patchy colloids, particles interacting with highly anisotropic and localized potentials, ground-state structures are often degenerate in energy, leaving entropy to decide the thermodynamically stable polymorph. A striking result is the possibility of generating colloidal “liquids” thermodynamically more stable than colloidal “crystals” even at vanishing temperature.
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自组装中的熵
胶体系统展示了熵如何导致有序结构的自组装,挑战我们对无序的认知。事实上,在默认熵是唯一热力学驱动力的系统中,硬胶体颗粒的分散随密度的增加同时显示平动和定向顺序。熵也是描述胶体粒子之间有效相互作用的基本概念。在一些情况下,熵的最大化会产生强大的吸引力,能够引起凝结,有时还会引起结晶。这些熵力甚至可以用来驱动特定位置的胶体,或者在超胶体聚集体的形成中使它们定向。耗竭相互作用和组合贡献是这些力的两个重要表现。熵在系统探索其势能面底部的过程中也起着主导作用。在斑块状胶体中,粒子与高度各向异性和局域电位相互作用,基态结构往往在能量上简并,留下熵来决定热力学稳定的多晶型。一个惊人的结果是,即使在消失的温度下,也有可能产生比胶体“晶体”更稳定的胶体“液体”。
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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