Litcius/Paper detail

Rheotaxis of active droplets

Prateek Dwivedi, Atishay Shrivastava, Dipin Pillai, Rahul Mangal

2021Physics of Fluids25 citationsDOIOpen Access PDF

Abstract

Rheotaxis is a well-known phenomenon among microbial organisms and artificial active colloids, wherein the swimmers respond to an imposed flow. We report the first experimental evidence of upstream rheotaxis by spherical active droplets. It is shown that the presence of a nearby wall and the resulting strong flow-gradient at the droplet level is at the root of this phenomenon. Experiments with optical cells of different heights reveal that rheotaxis is observed only for a finite range of shear rates, independent of the bulk flow rate. We conjecture that the flow induced distortion of an otherwise isotropic distribution of filled/empty micelles around the droplet propels it against the flow. We also show that nematic droplets exhibit elastic stress-induced oscillations during their rheotactic flight. A promising potential of manipulating the rheotactic behavior to trap as well as shuttle droplets between target locations is demonstrated, paving way to potentially significant advancement in bio-medical applications.

Topics & Concepts

PhysicsMechanicsIsotropyClassical mechanicsShear (geology)Distortion (music)Shear flowFlow (mathematics)Range (aeronautics)Flow visualizationOpticsUpstream (networking)Dynamics (music)BiophysicsActive matterLiquid crystalMicro and Nano RoboticsPickering emulsions and particle stabilizationMicrofluidic and Bio-sensing Technologies