Influence of Polymer-Excluded Volume on the Phase-Behavior of Colloid-Polymer Mixtures
Physical Review Letters 89 (2002) 128302 4pp
Influence of polymer excluded volume on the phase behavior of colloid-polymer mixtures
(2002)
Effective forces in colloidal mixtures: from depletion attraction to accumulation repulsion.
Phys Rev E Stat Nonlin Soft Matter Phys 65:6 Pt 1 (2002) 061407
Abstract:
Computer simulations and theory are used to systematically investigate how the effective force between two big colloidal spheres in a sea of small spheres depends on the basic (big-small and small-small) interactions. The latter are modeled as hardcore pair potentials with a Yukawa tail which can be either repulsive or attractive. For a repulsive small-small interaction, the effective force follows the trends as predicted by a mapping onto an effective nonadditive hardcore mixture: both a depletion attraction and an accumulation repulsion caused by small spheres adsorbing onto the big ones can be obtained depending on the sign of the big-small interaction. For repulsive big-small interactions, the effect of adding a small-small attraction also follows the trends predicted by the mapping. But a more subtle "repulsion through attraction" effect arises when both big-small and small-small attractions occur: upon increasing the strength of the small-small interaction, the effective potential becomes more repulsive. We have further tested several theoretical methods against our computer simulations: The superposition approximation works best for an added big-small repulsion, and breaks down for a strong big-small attraction, while density functional theory is very accurate for any big-small interaction when the small particles are pure hard spheres. The theoretical methods perform most poorly for small-small attractions.Non-monotonic variation with salt concentration of the second virial coefficient in protein solutions
(2002)
How to derive and parameterize effective potentials in colloid-polymer mixtures
(2002)