Liebchen Benno, Marenduzzo Davide, Cates Michael E
SUPA, School of Physics and Astronomy, University of Edinburgh, Edinburgh EH9 3FD, United Kingdom.
DAMTP, Centre for Mathematical Sciences, University of Cambridge, Cambridge CB3 0WA, United Kingdom.
Phys Rev Lett. 2017 Jun 30;118(26):268001. doi: 10.1103/PhysRevLett.118.268001. Epub 2017 Jun 28.
We introduce a representative minimal model for phoretically interacting active colloids. Combining kinetic theory, linear stability analyses, and a general relation between self-propulsion and phoretic interactions in autodiffusiophoretic and autothermophoretic Janus colloids collapses the parameter space from six to two dimensionless parameters: area fraction and Péclet number. This collapse arises when the lifetime of the self-generated phoretic fields is not too short, and leads to a universal phase diagram showing that phoretic interactions generically induce pattern formation in typical Janus colloids, even at very low density. The resulting patterns include waves and dynamic aggregates closely resembling the living clusters found in experiments on dilute suspension of Janus colloids.
我们引入了一个用于理论上相互作用的活性胶体的代表性最小模型。结合动力学理论、线性稳定性分析以及自扩散电泳和自热泳Janus胶体中自推进与理论相互作用之间的一般关系,将参数空间从六个无量纲参数缩减为两个:面积分数和佩克莱数。当自产生的理论场的寿命不太短的时候,就会出现这种缩减,从而得到一个通用相图,表明理论相互作用通常会在典型的Janus胶体中诱导图案形成,即使在非常低的密度下也是如此。所产生的图案包括波和动态聚集体,与在Janus胶体稀悬浮液实验中发现的活性簇非常相似。