Crystallization and reentrant melting of charged colloids in nonpolar solvents
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2015-03-23
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Abstract
We explore the crystallization of charged colloidal particles in a nonpolar solvent mixture. We simultaneously charge the particles and add counterions to the solution with aerosol-OT (AOT) reverse micelles. At low AOT concentrations, the charged particles crystallize into body-centered-cubic (bcc) or face-centered-cubic (fcc) Wigner crystals; at high AOT concentrations, the increased screening drives a thus far unobserved reentrant melting transition. We observe an unexpected scaling of the data with particle size, and account for all behavior with a model that quantitatively predicts both the reentrant melting and the data collapse.
Keywords
KIRKWOOD-ALDER TRANSITION, PHASE-DIAGRAM, MONODISPERSE LATEXES, YUKAWA SYSTEMS, MODEL SYSTEM, HARD-SPHERE, CRYSTALS, SUSPENSIONS, PARTICLES, DYNAMICS, Taverne
Citation
Kanai, T, Boon, N, Lu, P J, Sloutskin, E, Schofield, A B, Smallenburg, F, van Roij, R, Dijkstra, M & Weitz, D A 2015, 'Crystallization and reentrant melting of charged colloids in nonpolar solvents', Physical Review E - Statistical, Nonlinear, and Soft Matter Physics, vol. 91, no. 3, 030301. https://doi.org/10.1103/PhysRevE.91.030301