Journal ArticleDOI
Superlattice formation in binary mixtures of hard-sphere colloids
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TLDR
Binary mixtures of suspended hard-sphere colloidal particles, radius ratio R B /R A =0.58, were observed to undergo entropically driven freezing transitions into both the AB 2 and AB 13 superlattice structures at different relative proportions of the two species.Abstract:
Binary mixtures of suspended hard-sphere colloidal particles, radius ratio ${\mathit{R}}_{\mathit{B}}$/${\mathit{R}}_{\mathit{A}}$=0.58, were observed to undergo entropically driven freezing transitions into both the ${\mathit{AB}}_{2}$ and the ${\mathit{AB}}_{13}$ superlattice structures at different relative proportions of the two species. The structures were identified by powder light crystallography and by electron microscopy of the dried solid phases. An approximate (constant volume) phase diagram containing three eutectics was determined. The results are compared with earlier work at size ratio 0.62.read more
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Entropically Driven Formation of Hierarchically Ordered Nanocomposites
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Journal ArticleDOI
The stability of the AB13 crystal in a binary hard sphere system
TL;DR: In this paper, the stability of the AB13 crystal structure in a mixture of dissimilar hard spheres is investigated and shown to be thermodynamically stable both with respect to the fluid mixture and the crystal structures of pure A and pure B. This crystal structure has recently been observed in experiments on suspensions of colloidal hard-sphere mixtures.
Journal ArticleDOI
Basic Understanding of Condensed Phases of Matter via Packing Models
TL;DR: In this article, a review of the literature concerning the equilibrium, metastable and nonequilibrium packings of hard-particle packings in various Euclidean space dimensions is presented.
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