Slowing down supercooled liquids by manipulating their local structure | Zendy

Susana Marín-Aguilar | Zendy; H. H. Wensink | Zendy; Giuseppe Foffi | Zendy; Frank Smallenburg | Zendy

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Slowing down supercooled liquids by manipulating their local structure

Author(s) -

Susana Marín-Aguilar,

H. H. Wensink,

Giuseppe Foffi,

Frank Smallenburg

Publication year - 2019

Publication title -

soft matter

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.99

H-Index - 170

eISSN - 1744-6848

pISSN - 1744-683X

DOI - 10.1039/c9sm01746a

Subject(s) - icosahedral symmetry , supercooling , simple (philosophy) , symmetry (geometry) , chemical physics , binary number , local structure , colloid , statistical physics , molecular dynamics , materials science , local symmetry , physics , crystallography , chemistry , thermodynamics , mathematics , geometry , quantum mechanics , philosophy , arithmetic , epistemology

Glasses remain an elusive and poorly understood state of matter. It is not clear how we can control the macroscopic dynamics of glassy systems by tuning the properties of their microscopic building blocks. In this paper, we propose a simple directional colloidal model that reinforces the optimal icosahedral local structure of binary hard-sphere glasses. We show that this specific symmetry results in a dramatic slowing down of the dynamics. Our results open the door to controlling the dynamics of dense glassy systems by selectively promoting specific local structural environments.

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