表面液滴溶解中的黏附-跳跃模式。

Stick-jump mode in surface droplet dissolution.

作者信息

Dietrich Erik, Kooij E Stefan, Zhang Xuehua, Zandvliet Harold J W, Lohse Detlef

机构信息

§School of Civil, Environmental and Chemical Engineering, RMIT University, Melbourne, VIC 3001, Australia.

出版信息

Langmuir. 2015 Apr 28;31(16):4696-703. doi: 10.1021/acs.langmuir.5b00653. Epub 2015 Apr 16.

DOI:10.1021/acs.langmuir.5b00653

PMID:25835057

Abstract

The analogy between evaporating surface droplets in air to dissolving long-chain alcohol droplets in water is worked out. We show that next to the three known modi for surface droplet evaporation or dissolution (constant contact angle mode, constant contact radius mode, and stick-slide mode), a fourth mode exists for small droplets on supposedly smooth substrates, the stick-jump mode: intermittent contact line pinning causes the droplet to switch between sticking and jumping during the dissolution. We present experimental data and compare them to theory to predict the dissolution time in this stick-jump mode. We also explain why these jumps were easily observed for microscale droplets but not for larger droplets.

摘要

研究了空气中蒸发的表面液滴与水中溶解的长链醇液滴之间的类比关系。我们表明，除了已知的表面液滴蒸发或溶解的三种模式（恒定接触角模式、恒定接触半径模式和粘滑模式）外，对于假定光滑基底上的小液滴还存在第四种模式，即粘跳模式：间歇性的接触线钉扎导致液滴在溶解过程中在附着和跳跃之间切换。我们给出了实验数据，并将其与理论进行比较，以预测这种粘跳模式下的溶解时间。我们还解释了为什么这些跳跃在微尺度液滴中很容易观察到，而在较大液滴中却不容易观察到。

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表面液滴溶解中的黏附-跳跃模式。

Stick-jump mode in surface droplet dissolution.

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