2014
DOI: 10.1039/c4sm01895h
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Degenerate crystals from colloidal dimers under confinement

Abstract: Colloidal aperiodic phases (i.e., entropy stabilized degenerate crystals, DCs) are realized via self-assembly of hollow fluorescent silica dimers under wedge-cell confinement. The dimer building blocks approximate two tangent spheres and their arrangements are studied via laser scanning confocal microscopy. In the DCs, the individual lobes tile a lattice and five distinct DC arrangements with square, triangular or rectangular layer symmetry are determined as a function of confinement height. Moreover, Monte Ca… Show more

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Cited by 15 publications
(12 citation statements)
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“…Crystals formed by CSCs of χ * 0.6 are denoted B1 P and B2 P as the dimers resemble prolate spheroids or dumbbells. Such a comparison draws on similarities between the B2 P crystal and the structures observed in for hard ellipsoids by Dovev et al 84 and by Pfleiderer et al 85 , and although it has not been studied here there may exist another B P crystal where dimer bonds are formed randomly akin to the aperiodic crystal structure formed by dumbbells 29,31,86,87 . The next dimer-based crystal is B PC has similar structure to PC where in this case particles forming dimers can rotate cooperatively.…”
Section: Bulk Phase Behaviour Of Convex Spherical Capsmentioning
confidence: 99%
See 1 more Smart Citation
“…Crystals formed by CSCs of χ * 0.6 are denoted B1 P and B2 P as the dimers resemble prolate spheroids or dumbbells. Such a comparison draws on similarities between the B2 P crystal and the structures observed in for hard ellipsoids by Dovev et al 84 and by Pfleiderer et al 85 , and although it has not been studied here there may exist another B P crystal where dimer bonds are formed randomly akin to the aperiodic crystal structure formed by dumbbells 29,31,86,87 . The next dimer-based crystal is B PC has similar structure to PC where in this case particles forming dimers can rotate cooperatively.…”
Section: Bulk Phase Behaviour Of Convex Spherical Capsmentioning
confidence: 99%
“…A variety of shapes in bulk and under the influence of external fields have been explored including spherocylinders [15][16][17][18] , cut-spheres 23 [24][25][26][27][28] , dimers [29][30][31] , bowl-like particles [32][33][34] , concave spherical caps [35][36][37] , polyhedra [38][39][40][41][42] , and a variety of branched particles [43][44][45][46] , just to mention few examples. An assumption behind these studies is that the effect of gravitational forces is negligible, corresponding to a situation of colloidal particles embedded within a density matched (implicit) medium.…”
Section: Introductionmentioning
confidence: 99%
“…Non-spherical particles confined in narrow planar slits are found to exhibit the formation of a variety of structures with symmetries not observed under bulk conditions [34][35][36][37][38][39][40][41][42].…”
Section: Introductionmentioning
confidence: 99%
“…However, the configurational degeneracy arising from the large number of possible arrangements of the particle bonds within the crystal lattice promotes the formation of aperiodic crystals 63,64 . This crystals have been observed in both two and three dimensional systems in the bulk 58,65 , and under strong geometrical confinement 66 . Dumbbells not only show a different phase behavior from spherical particles, but their phases also differ in mechanical and dynamical properties.…”
Section: Hard and Soft-core Models Of Non-convex Particlesmentioning
confidence: 76%