Litcius/Paper detail

Guiding Self-Assembly of Active Colloids by Temporal Modulation of Activity

Bo Zhang, Alexey Snezhko, Andrey Sokolov

2022Physical Review Letters22 citationsDOIOpen Access PDF

Abstract

Self-organization phenomena in ensembles of self-propelled particles open pathways to the synthesis of new dynamic states not accessible by traditional equilibrium processes. The challenge is to develop a set of principles that facilitate the control and manipulation of emergent active states. Here, we report that dielectric rolling colloids energized by a pulsating electric field self-organize into alternating square lattices with a lattice constant controlled by the parameters of the field. We combine experiments and simulations to examine spatiotemporal properties of the emergent collective patterns and investigate the underlying dynamics of the self-organization.We reveal the resistance of the dynamic lattices to compression and expansion stresses leading to a hysteretic behavior of the lattice constant. The general mechanism of pattern synthesis and control in active ensembles via temporal modulation of activity can be applied to other active colloidal systems.

Topics & Concepts

ColloidDielectricLattice (music)Modulation (music)Electric fieldMaterials scienceActive matterSquare latticeChemical physicsDynamics (music)PhysicsBiological systemCondensed matter physicsColloidal particleNanotechnologyColloidal crystalMechanism (biology)Compression (physics)Lattice constantRotational dynamicsFeedback controlField (mathematics)Time constantSquare waveStatistical physicsActive mediumMicro and Nano RoboticsModular Robots and Swarm IntelligencePickering emulsions and particle stabilization