English

Solvent mediated interactions between model colloids and interfaces: A microscopic approach

Soft Condensed Matter 2011-06-24 v1

Abstract

We determine the solvent mediated contribution to the effective potentials for model colloidal or nano- particles dispersed in a binary solvent that exhibits fluid-fluid phase separation. Using a simple density functional theory we calculate the density profiles of both solvent species in the presence of the `colloids', which are treated as external potentials, and determine the solvent mediated (SM) potentials. Specifically, we calculate SM potentials between (i) two colloids, (ii) a colloid and a planar fluid-fluid interface, and (iii) a colloid and a planar wall with an adsorbed wetting film. We consider three different types of colloidal particles: colloid A which prefers the bulk solvent phase rich in species 2, colloid C which prefers the solvent phase rich in species 1, and `neutral' colloid B which has no strong preference for either phase, i.e. the free energies to insert the colloid into either of the coexisting bulk phases are almost equal. When a colloid which has a preference for one of the two solvent phases is inserted into the disfavored phase at statepoints close to coexistence a thick adsorbed `wetting' film of the preferred phase may form around the colloids. The presence of the adsorbed film has a profound influence on the form of the SM potentials.

Keywords

Cite

@article{arxiv.0908.2338,
  title  = {Solvent mediated interactions between model colloids and interfaces: A microscopic approach},
  author = {Paul Hopkins and Andrew J. Archer and Robert Evans},
  journal= {arXiv preprint arXiv:0908.2338},
  year   = {2011}
}

Comments

17 Pages, 13 Figures. Accepted for publication in Journal of Chemical Physics

R2 v1 2026-06-21T13:36:02.821Z