Issue 19, 2019

Aggregation dynamics of active rotating particles in dense passive media

Abstract

Active matter systems are able to exhibit emergent non-equilibrium behavior due to activity-induced effective interactions between the active particles. Here we study the aggregation and dynamical behavior of active rotating particles, spinners, embedded in 2D passive colloidal monolayers. Using both experiments and simulations we observe aggregation of active particles or spinners whose behavior resembles classical 2D Cahn–Hilliard coarsening. The aggregation behavior and spinner attraction depend on the mechanical properties of the passive monolayer and the activity of spinners. Spinner aggregation only occurs when the passive monolayer behaves elastically and when the spinner activity exceeds a minimum activity threshold. Interestingly, for the spinner concentrations investigated here, the spinner concentration does not seem to change the dynamics of the aggregation behavior. There is a characteristic cluster size which maximizes spinner aggregation by minimizing the drag through the passive monolayer and maximizing the stress applied on the passive medium. We also show a ternary mixture of passive particles and co-rotating and counter-rotating spinners that aggregate into clusters of co and counter-rotating spinners respectively.

Graphical abstract: Aggregation dynamics of active rotating particles in dense passive media

Article information

Article type
Paper
Submitted
29 Oct 2018
Accepted
09 Apr 2019
First published
15 Apr 2019
This article is Open Access
Creative Commons BY-NC license

Soft Matter, 2019,15, 3929-3937

Aggregation dynamics of active rotating particles in dense passive media

J. L. Aragones, J. P. Steimel and A. Alexander-Katz, Soft Matter, 2019, 15, 3929 DOI: 10.1039/C8SM02207K

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