Solute-mediated interactions between active droplets

Pepijn G. Moerman, Henrique W. Moyses, Ernest B. Van Der Wee, David G. Grier, Alfons Van Blaaderen, Willem K. Kegel, Jan Groenewold, Jasna Brujic

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Concentration gradients play a critical role in embryogenesis, bacterial locomotion, as well as the motility of active particles. Particles develop concentration profiles around them by dissolution, adsorption, or the reactivity of surface species. These gradients change the surface energy of the particles, driving both their self-propulsion and governing their interactions. Here, we uncover a regime in which solute gradients mediate interactions between slowly dissolving droplets without causing autophoresis. This decoupling allows us to directly measure the steady-state, repulsive force, which scales with interparticle distance as F ∼ 1/r2. Our results show that the dissolution process is diffusion rather than reaction rate limited, and the theoretical model captures the dependence of the interactions on droplet size and solute concentration, using a single fit parameter, l = 16 ± 3 nm, which corresponds to the length scale of a swollen micelle. Our results shed light on the out-of-equilibrium behavior of particles with surface reactivity
Original languageEnglish
Article number032607
JournalPhysical Review E - Statistical, Nonlinear, and Soft Matter Physics
Volume96
Issue number3
DOIs
Publication statusPublished - 17 Sept 2017

Keywords

  • Functional materials
  • Self-assembly
  • Active matter
  • Emulsions
  • Self-propelled particles
  • Laser techniques
  • Theories of collective dynamics & active matter
  • Statistical Physics
  • Polymers

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