Removing grain boundaries from three-dimensional colloidal crystals using active dopants

Publication date

2016-05-30

Authors

van der Meer, BerendISNI 0000000506288604
Dijkstra, M.ISNI 0000000358257928
Filion, LauraISNI 0000000387851600

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Supervisors

Document Type

Article
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cc_by

Abstract

Using computer simulations we explore how grain boundaries can be removed from three-dimensional colloidal crystals by doping with a small fraction of active colloids. We show that for sufficient selfpropulsion, the system is driven into a crystal-fluid coexistence. In this phase separated regime, the active dopants become mobile and spontaneously gather at the grain boundaries. The resulting surface melting and recrystallization of domains result in the motion of the grain boundaries over time and lead to the formation of a large single crystal. However, when the self-propulsion is too low to cause a phase separation, we observe no significant enhancement of grain growth.

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Citation

van der Meer, B, Dijkstra, M & Filion, L C 2016, 'Removing grain boundaries from three-dimensional colloidal crystals using active dopants', Soft Matter, vol. 12, pp. 5630-5635. https://doi.org/10.1039/C6SM00700G