Glassy dynamics of convex polyhedra

Publication date

2014-12-14

Authors

Tasios, Nikos
Gantapara, A.P.ISNI 0000000506581915
Dijkstra, MarjoleinISNI 0000000358257928

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Document Type

Article
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Abstract

Self-assembly of polyhedral-shaped particles has attracted huge interest with the advent of new synthesis methods that realize these faceted particles in the lab. Recent studies have shown that polyhedral-shaped particles exhibit a rich phase behavior by excluded volume interactions alone; some of these particles are even alleged to show a transition to a glass phase by quenching the liquid sufficiently fast beyond the glass transition (supercooling), such that the formation of structures with long-range order is suppressed. Despite the recent progress, no study has been made on the glass formation of polyhedral-shaped particles. Here, we study the glass behavior of polyhedral particles using advanced Monte Carlo methods. We investigate the formation of a glass of monodisperse hard polyhedral-shaped particles, namely, octahedra, tetrahedra, and triangular cupola, using simulations. Finally, the fragility of these particles is determined and compared to that of a polydisperse hard-sphere system. (C) 2014 AIP Publishing LLC.

Keywords

RANDOM CLOSE PACKING, SILVER NANOPARTICLES, GOLD NANOPARTICLES, COMPLEX STRUCTURES, LIQUIDS, TRANSITION, RELAXATION, SPHERES, CUBES, NANOCRYSTALS

Citation

Tasios, N, Gantapara, A P & Dijkstra, M 2014, 'Glassy dynamics of convex polyhedra', Journal of Chemical Physics, vol. 141, no. 22, 224502. https://doi.org/10.1063/1.4902992