Self-Motile Colloidal Particles: From Directed Propulsion to Random Walk

Howse, Jonathan R.; Jones, Richard; Ryan, Anthony J.; Gough, Tim; Vafabakhsh, Reza; Golestanian, Ramin

doi:10.1103/physrevlett.99.048102

articlePhysical Review LettersJul 27, 2007GREEN OA

Self-Motile Colloidal Particles: From Directed Propulsion to Random Walk

JRJonathan R. Howse RJRichard Jones AJAnthony J. Ryan TGTim Gough RVReza Vafabakhsh

University of Sheffield · University of Bradford · +1 more institution

PubMed

Indexed inarxivcrossrefpubmed

Abstract

The motion of an artificial microscale swimmer that uses a chemical reaction catalyzed on its own surface to achieve autonomous propulsion is fully characterized experimentally. It is shown that at short times it has a substantial component of directed motion, with a velocity that depends on the concentration of fuel molecules. At longer times, the motion reverts to a random walk with a substantially enhanced diffusion coefficient. Our results suggest strategies for designing artificial chemotactic systems.

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References: 17

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Topics & keywords

Topics

Keywords

Propulsion
Random walk
Microscale chemistry
Motion (physics)
Active matter
Diffusion
Component (thermodynamics)
Brownian motion

UN Sustainable Development Goals

Affordable and clean energy

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