超疏水表面的亚稳润湿：Cassie-Baxter-Wenzel 转变的连续体和原子观点。

Metastable wetting on superhydrophobic surfaces: continuum and atomistic views of the Cassie-Baxter-Wenzel transition.

机构信息

Dipartimento di Ingegneria Meccanica e Aerospaziale, Università di Roma La Sapienza, Via Eudossiana 18, 00184 Roma, Italy.

出版信息

Phys Rev Lett. 2012 Nov 30;109(22):226102. doi: 10.1103/PhysRevLett.109.226102.

DOI:10.1103/PhysRevLett.109.226102

PMID:23368136

Abstract

In this Letter, we develop a continuum theory for the Cassie-Baxter-Wenzel (CB-W) transition. The proposed model accounts for the metastabilities in the wetting of rough hydrophobic surfaces, allows us to reconstruct the transition mechanism, and identifies the free energy barriers separating the CB and W states as a function of the liquid pressure. This information is crucial in the context of superhydrophobic surfaces, where there is interest in extending the duration of the metastable superhydrophobic CB state. The model is validated against free energy atomistic simulations.

摘要

在这封信件中，我们为 Cassie-Baxter-Wenzel（CB-W）转变发展了一个连续体理论。所提出的模型考虑了粗糙疏油表面润湿的亚稳性，使我们能够重建转变机制，并确定将 CB 状态和 W 状态分离的自由能势垒作为液体压力的函数。在超疏水表面的背景下，这一信息至关重要，因为人们有兴趣延长亚稳超疏水 CB 状态的持续时间。该模型通过自由能原子模拟进行了验证。

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超疏水表面的亚稳润湿：Cassie-Baxter-Wenzel 转变的连续体和原子观点。

Metastable wetting on superhydrophobic surfaces: continuum and atomistic views of the Cassie-Baxter-Wenzel transition.

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