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Tunable self-healing of magnetically propelling colloidal carpets.


ABSTRACT: The process of crystallization is difficult to observe for transported, out-of-equilibrium systems, as the continuous energy injection increases activity and competes with ordering. In emerging fields such as microfluidics and active matter, the formation of long-range order is often frustrated by the presence of hydrodynamics. Here we show that a population of colloidal rollers assembled by magnetic fields into large-scale propelling carpets can form perfect crystalline materials upon suitable balance between magnetism and hydrodynamics. We demonstrate a field-tunable annealing protocol based on a controlled colloidal flow above the carpet that enables complete crystallization after a few seconds of propulsion. The structural transition from a disordered to a crystalline carpet phase is captured via spatial and temporal correlation functions. Our findings unveil a novel pathway to magnetically anneal clusters of propelling particles, bridging driven systems with crystallization and freezing in material science.

SUBMITTER: Massana-Cid H 

PROVIDER: S-EPMC6547653 | biostudies-literature | 2019 Jun

REPOSITORIES: biostudies-literature

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Tunable self-healing of magnetically propelling colloidal carpets.

Massana-Cid Helena H   Meng Fanlong F   Matsunaga Daiki D   Golestanian Ramin R   Tierno Pietro P  

Nature communications 20190604 1


The process of crystallization is difficult to observe for transported, out-of-equilibrium systems, as the continuous energy injection increases activity and competes with ordering. In emerging fields such as microfluidics and active matter, the formation of long-range order is often frustrated by the presence of hydrodynamics. Here we show that a population of colloidal rollers assembled by magnetic fields into large-scale propelling carpets can form perfect crystalline materials upon suitable  ...[more]

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