Entropic Origin of the Attenuated Width of the Ice–Water Interface

Saumyak Mukherjee, B. Bagchi
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Abstract

The solid–liquid interface of water is ∼50% narrower (or thinner) than that of argon. With the help of molecular dynamics simulations, we compare two water models, namely, TIP4P/ice and mW, with Lennard-Jones argon to understand the origin of this difference. We find that the sharpness of the ice–water interface is partly entropic in origin. The sharp drop in structural order from the crystalline to the liquid phase of water is assisted by a large increase in rotational entropy. We find that this change is strongly correlated to the number of hydrogen bond (HB) defects at the interface. The concentration of HB defects has earlier been correlated with entropy. We also find that the interfacial width is dependent on the order parameter chosen to define the interface. However, it always remains wider for the argon interface than that for water.
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冰水界面衰减宽度的熵源
水的固液界面比氩的固液界面窄(或薄)50%。在分子动力学模拟的帮助下,我们比较了两种水模型,即 TIP4P/ice 和 mW,以及 Lennard-Jones 氩,以了解这种差异的起源。我们发现,冰-水界面的尖锐性部分源于熵。水从结晶相到液相的结构阶急剧下降得益于旋转熵的大幅增加。我们发现,这种变化与界面上氢键(HB)缺陷的数量密切相关。氢键缺陷的浓度早先就与熵相关。我们还发现,界面宽度取决于定义界面时所选择的阶次参数。然而,氩界面的宽度始终大于水界面。
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