English

Light-switchable propulsion of active particles with reversible interactions

Soft Condensed Matter 2020-12-02 v1 Materials Science Biological Physics Fluid Dynamics

Abstract

Active systems such as microorganisms and self-propelled particles show a plethora of collective phenomena, including swarming, clustering, and phase separation. Control over the propulsion direction and switchability of the interactions between the individual self-propelled units may open new avenues in designing of materials from within. Here, we present a self-propelled particle system, consisting of half-gold coated titania (TiO2\mathrm{TiO}_2) particles, in which we can fast and on-demand reverse the propulsion direction, by exploiting the different photocatalytic activities on both sides. We demonstrate that the reversal in propulsion direction changes the nature of the hydrodynamic interaction from attractive to repulsive and can drive the particle assemblies to undergo both fusion and fission transitions. Moreover, we show these active colloids can act as nucleation sites, and switch rapidly the interactions between active and passive particles, leading to reconfigurable assembly and disassembly. Our experiments are qualitatively described by a minimal hydrodynamic model.

Keywords

Cite

@article{arxiv.2012.00107,
  title  = {Light-switchable propulsion of active particles with reversible interactions},
  author = {Hanumantha Rao Vutukuri and Maciej Lisicki and Eric Lauga and Jan Vermant},
  journal= {arXiv preprint arXiv:2012.00107},
  year   = {2020}
}

Comments

28 pages, 4 figures

R2 v1 2026-06-23T20:37:13.104Z