Issue 33, 2015

Effect of fluid–colloid interactions on the mobility of a thermophoretic microswimmer in non-ideal fluids

Abstract

Janus colloids propelled by light, e.g., thermophoretic particles, offer promising prospects as artificial microswimmers. However, their swimming behavior and its dependence on fluid properties and fluid–colloid interactions remain poorly understood. Here, we investigate the behavior of a thermophoretic Janus colloid in its own temperature gradient using numerical simulations. The dissipative particle dynamics method with energy conservation is used to investigate the behavior in non-ideal and ideal-gas like fluids for different fluid–colloid interactions, boundary conditions, and temperature-controlling strategies. The fluid–colloid interactions appear to have a strong effect on the colloid behavior, since they directly affect heat exchange between the colloid surface and the fluid. The simulation results show that a reduction of the heat exchange at the fluid–colloid interface leads to an enhancement of colloid's thermophoretic mobility. The colloid behavior is found to be different in non-ideal and ideal fluids, suggesting that fluid compressibility plays a significant role. The flow field around the colloid surface is found to be dominated by a source-dipole, in agreement with the recent theoretical and simulation predictions. Finally, different temperature-control strategies do not appear to have a strong effect on the colloid's swimming velocity.

Graphical abstract: Effect of fluid–colloid interactions on the mobility of a thermophoretic microswimmer in non-ideal fluids

Article information

Article type
Paper
Submitted
02 Jun 2015
Accepted
21 Jul 2015
First published
21 Jul 2015
This article is Open Access
Creative Commons BY license

Soft Matter, 2015,11, 6703-6715

Author version available

Effect of fluid–colloid interactions on the mobility of a thermophoretic microswimmer in non-ideal fluids

D. A. Fedosov, A. Sengupta and G. Gompper, Soft Matter, 2015, 11, 6703 DOI: 10.1039/C5SM01364J

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