200K左右冰-气界面处的过量氢键

Excess Hydrogen Bond at the Ice-Vapor Interface around 200 K.

作者信息

Smit Wilbert J, Tang Fujie, Sánchez M Alejandra, Backus Ellen H G, Xu Limei, Hasegawa Taisuke, Bonn Mischa, Bakker Huib J, Nagata Yuki

机构信息

AMOLF, Science Park 104, 1098 XG Amsterdam, The Netherlands.

International Center for Quantum Materials, Peking University, 5 Yiheyuan Road, Haidian, Beijing 100871, China.

出版信息

Phys Rev Lett. 2017 Sep 29;119(13):133003. doi: 10.1103/PhysRevLett.119.133003. Epub 2017 Sep 28.

DOI:10.1103/PhysRevLett.119.133003

PMID:29341676

Abstract

Phase-resolved sum-frequency generation measurements combined with molecular dynamics simulations are employed to study the effect of temperature on the molecular arrangement of water on the basal face of ice. The topmost monolayer, interrogated through its nonhydrogen-bonded, free O-H stretch peak, exhibits a maximum in surface H-bond density around 200 K. This maximum results from two competing effects: above 200 K, thermal fluctuations cause the breaking of H bonds; below 200 K, the formation of bulklike crystalline interfacial structures leads to H-bond breaking. Knowledge of the surface structure of ice is critical for understanding reactions occurring on ice surfaces and ice nucleation.

摘要

结合分子动力学模拟的相分辨和频产生测量被用于研究温度对冰基面水分子排列的影响。通过其非氢键连接的自由O-H伸缩峰来探测的最顶层单分子层，在约200K时表面氢键密度出现最大值。这个最大值是由两种相互竞争的效应导致的：在200K以上，热涨落导致氢键断裂；在200K以下，类块状晶体界面结构的形成导致氢键断裂。了解冰的表面结构对于理解冰表面发生的反应和冰核形成至关重要。

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200K左右冰-气界面处的过量氢键

Excess Hydrogen Bond at the Ice-Vapor Interface around 200 K.

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