液晶和液态金属薄膜中的旋节线失稳分相

Spinodal dewetting in liquid crystal and liquid metal films.

作者信息

Herminghaus S, Jacobs K, Mecke K, Bischof J, Fery A, Ibn-Elhaj M, Schlagowski S

机构信息

S. Herminghaus, K. Jacobs, A. Fery, M. Ibn-Elhaj, S. Schlagowski, Max Planck Institute for Colloid and Interface Science, Rudower Chaussee 5, D-12489 Berlin-Adlershof, Germany. K. Mecke, Physics Faculty of the University of Wuppertal, D-4209.

出版信息

Science. 1998 Oct 30;282(5390):916-9. doi: 10.1126/science.282.5390.916.

DOI:10.1126/science.282.5390.916

PMID:9794755

Abstract

Theory predicts that dewetting of a homogeneous liquid film from a solid surface may proceed via unstable surface waves on the liquid. This phenomenon, usually termed spinodal dewetting, has been sought after in many systems. Observations in liquid crystal and liquid metal films showed that, as expected, the emerging structures were similar to those found for spinodal decomposition in mixtures. Certain differences, however, could be attributed to peculiarities of the wetting forces in these two dissimilar systems, thereby demonstrating the role of nonlinearities inherent in the wetting forces.

摘要

理论预测，均匀液膜从固体表面的去湿过程可能通过液体上不稳定的表面波进行。这种现象通常称为亚稳相分离去湿，已在许多系统中被探寻。在液晶和液态金属薄膜中的观察表明，正如预期的那样，出现的结构与混合物中亚稳相分解所发现的结构相似。然而，某些差异可归因于这两个不同系统中润湿性的特殊性，从而证明了润湿性中固有的非线性的作用。

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液晶和液态金属薄膜中的旋节线失稳分相

Spinodal dewetting in liquid crystal and liquid metal films.

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