Journal ArticleDOI
Highly ordered size-dispersive packings of polydisperse microgel spheres.
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In this article, the authors investigated the ordering of polydisperse polystyrene microgels in the size range of 5−50 nm in organic solvents under controlled conditions, and the resulting two-dimensional packing structures were investigated.Abstract:
Dilute suspensions of polydisperse polystyrene microgels in the size range of 5−50 nm in organic solvents were evaporated under controlled conditions, and the resulting two-dimensional packing structures were investigated. The particles form highly ordered structures, as revealed by electron microscopy. The ordering process is understood as a unique self-organization process, in which differences in the particle size and the polydispersity of the particles are a main driving force. The structures follow the rules of hyperbolic geometry and are named “Zenon”-packing, indicating that the two-dimensional structures without translational invariance can still be understood as a special form of a regular lattice. A systematic variation of the solvent quality and the surface tension of the suspension shows that the ordering essentially is based upon size-dispersive van der Waals attractions between the microgels.read more
Citations
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Capillary forces and structuring in layers of colloid particles
TL;DR: In this article, the authors investigated the capillary-bridge forces in relation to capillary condensation and cavitation, surface-force measurements and antifoaming by oily drops.
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Unexpected consequences of block polydispersity on the self-assembly of ABA triblock copolymers
TL;DR: It is demonstrated that polydisperse SBS triblockCopolymers self-assemble into periodic structures with unexpectedly enhanced stabilities that greatly exceed those of equivalent monodisperse copolymers, and it is shown that narrow dispersitycopolymers are not required for periodic nanoscale assembly.
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Salt effects over the swelling of ionized mesoscopic gels
TL;DR: In this article, the effects of salt concentration over the swelling of ionic mesoscopic gels were studied theoretically and verified with experiments, and the Flory-Huggins mean-field approach together with the Donnan relations were used to account for the essential physics of the problem.
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Crystallization of poly(ethylene oxide) confined in miniemulsion droplets
TL;DR: In this article, it was shown that the polymer structure in the crystallized poly(ethylene oxide) droplets is topologically controlled, and that platelet formation occurs only at large supercooling.
Journal ArticleDOI
Osmotic de-swelling of ionic microgel particles
TL;DR: In this paper, the effect of an external osmotic pressure πext on the swelling of ionic mesoscopic gels in the weak screening limit, where the Debye screening length is larger than the mesh size of the gel, was investigated.
References
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Journal ArticleDOI
Spontaneous ordering of bimodal ensembles of nanoscopic gold clusters
TL;DR: In this article, it was shown that alkanethiol-derivatized gold nanocrystals of different, well defined sizes organize themselves spontaneously into complex, ordered two-dimensional arrays that are structurally related to both colloidal crystals and alloys between metals of different atomic radii.
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Pressure/temperature phase diagrams and superlattices of organically functionalized metal nanocrystal monolayers: the influence of particle size, size distribution, and surface passivant
TL;DR: The phase behavior of organically passivated 20−75 A diameter Ag and Au nanocrystals was investigated by examining surface−area isotherms of Langmuir monolayers and transmission electron micrographs of LB films as discussed by the authors.
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Structural Analysis of Self-Assembling Nanocrystal Superlattices
TL;DR: In this article, the authors present an in-depth understanding of the nature of the 2D and 3D assembly of nanocrystals and the methodology of their analysis, as well as a general guide to solving the structural problems associated with nanocluster engineered crystalline materials.
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Crystallization of opals from polydisperse nanoparticles
TL;DR: Simulated annealing Monte Carlo calculations are used to demonstrate that these configurations correspond to minimization of the mesoscopic van der Waals energy of polydisperse particles, and the driving force for ordering is the size dependence of dispersional attractions.
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Superlattice formation in binary mixtures of hard-sphere colloids
TL;DR: 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.