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Journal Articles Soft Matter Year : 2018

Clustering-induced self-propulsion of isotropic autophoretic particles

Akhil Varma
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Thomas D Montenegro-Johnson
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Sébastien Michelin
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Isotropic phoretic particles do not swim individually but can achieve self-propulsion collectively by spontaneously forming clusters of anisotropic geometry. The clustering process, driven by phoretic and hydrodynamic interactions, is modeled to obtain the statistical distribution of the particles' arrangement and the resulting properties of the collective self-propulsion. As featured in: See Sébastien Michelin et al., Soft Matter, 2018, 14, 7155. This journal is Self-diffusiophoretic particles exploit local concentration gradients of a solute species in order to self-propel at the micron scale. While an isolated chemically-and geometrically-isotropic particle cannot swim, we show that it can achieve self-propulsion through interactions with other individually-non-motile particles by forming geometrically-anisotropic clusters via phoretic and hydrodynamic interactions. This result identifies a new route to symmetry-breaking for the concentration field and to self-propulsion, that is not based on an anisotropic design, but on the collective dynamics of identical and homogeneous active particles. Using full numerical simulations as well as theoretical modelling of the clustering process, the statistics of the propulsion properties are obtained for arbitrary initial arrangement of the particles. The robustness of these results to thermal noise, and more generally the effect of Brownian motion of the particles, is also discussed.
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hal-02104820 , version 1 (19-04-2019)



Akhil Varma, Thomas D Montenegro-Johnson, Sébastien Michelin. Clustering-induced self-propulsion of isotropic autophoretic particles. Soft Matter, 2018, 14 (35), pp.7155-7173. ⟨10.1039/c8sm00690c⟩. ⟨hal-02104820⟩
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