Nonlinear screening and gas-liquid separation in suspensions of charged colloids

Abstract

We calculate phase diagrams of charged colloidal spheres (valency Z and radius a) in a 1:1 electrolyte from multi-centered nonlinear Poisson-Boltzmann theory. Our theory takes into account charge-renormalization of the colloidal interactions and volume terms due to many-body effects. For valencies as small as Z=1 and as large as 104 we find a gas--liquid spinodal instability in the colloid-salt phase diagram provided Z/a241, where is the Bjerrum length.

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