化学排斥活性胶体中的聚类与模式形成

Clustering and Pattern Formation in Chemorepulsive Active Colloids.

作者信息

Liebchen Benno, Marenduzzo Davide, Pagonabarraga Ignacio, Cates Michael E

机构信息

SUPA, School of Physics and Astronomy, University of Edinburgh, Edinburgh EH9 3FD, United Kingdom.

Departament de Física Fonamental, Universitat de Barcelona-Carrer Martí i Franquès 1, 08028-Barcelona, Spain.

出版信息

Phys Rev Lett. 2015 Dec 18;115(25):258301. doi: 10.1103/PhysRevLett.115.258301. Epub 2015 Dec 16.

DOI:10.1103/PhysRevLett.115.258301

PMID:26722949

Abstract

We demonstrate that migration away from self-produced chemicals (chemorepulsion) generates a generic route to clustering and pattern formation among self-propelled colloids. The clustering instability can be caused either by anisotropic chemical production, or by a delayed orientational response to changes of the chemical environment. In each case, chemorepulsion creates clusters of a self-limiting area which grows linearly with self-propulsion speed. This agrees with recent observations of dynamic clusters in Janus colloids (albeit not yet known to be chemorepulsive). More generally, our results could inform design principles for the self-assembly of chemorepulsive synthetic swimmers and/or bacteria into nonequilibrium patterns.

摘要

我们证明，远离自身产生的化学物质的迁移（化学排斥）为自驱动胶体之间的聚集和图案形成提供了一条通用途径。聚集不稳定性可能由各向异性的化学物质产生引起，也可能由对化学环境变化的延迟取向响应引起。在每种情况下，化学排斥都会形成自限面积的聚集体，其面积随自推进速度线性增长。这与最近在Janus胶体中观察到的动态聚集体一致（尽管尚不清楚是否具有化学排斥性）。更一般地说，我们的结果可为将化学排斥性合成游动体和/或细菌自组装成非平衡图案的设计原则提供依据。

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化学排斥活性胶体中的聚类与模式形成

Clustering and Pattern Formation in Chemorepulsive Active Colloids.

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