关于固着液滴杨氏方程的推导：蒸发引起的非平衡效应。

On the derivation of Young's equation for sessile drops: nonequilibrium effects due to evaporation.

作者信息

Butt Hans-Jürgen, Golovko Dmytro S, Bonaccurso Elmar

机构信息

Max-Planck-Institute for Polymer Research, Ackermannweg 10, 55128 Mainz, Germany.

出版信息

J Phys Chem B. 2007 May 17;111(19):5277-83. doi: 10.1021/jp065348g. Epub 2007 Apr 25.

DOI:10.1021/jp065348g

PMID:17455971

Abstract

Sessile liquid drops have a higher vapor pressure than planar liquid surfaces, as quantified by Kelvin's equation. In classical derivations of Young's equation, this fact is often not taken into account. For an open system, a sessile liquid drop is never in thermodynamic equilibrium and will eventually evaporate. Practically, for macroscopic drops the time of evaporation is so long that nonequilibrium effects are negligible. For microscopic drops evaporation cannot be neglected. When a liquid is confined to a closed system, real equilibrium can be established. Experiments on the evaporation of water drops confirm the calculations.

摘要

根据开尔文方程，固着液滴的蒸气压高于平面液体表面。在杨氏方程的经典推导中，这一事实常常未被考虑在内。对于开放系统，固着液滴永远不会处于热力学平衡状态，最终会蒸发。实际上，对于宏观液滴，蒸发时间非常长，以至于非平衡效应可以忽略不计。对于微观液滴，蒸发则不能被忽略。当液体被限制在封闭系统中时，可以建立真正的平衡。水滴蒸发的实验证实了这些计算结果。

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关于固着液滴杨氏方程的推导：蒸发引起的非平衡效应。

On the derivation of Young's equation for sessile drops: nonequilibrium effects due to evaporation.

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