. . . . . . . . . . . "Effect of Steric, Double-Layer, and Depletion Interactions on theStability of Colloids in Systems Containing a Polymer and anElectrolyte" . "Experiments carried out by Stenkamp et al. [Stenkamp, V. S.; McGuiggan, P.; Berg, J. C. Langmuir2001, 17, 637.]have shown that polystyrene latexes can be restabilized at sufficiently high electrolyte concentrations in the presenceof an amphiphilic block copolymer [poly(ethylene oxide)\u2212poly(propylene oxide)\u2212poly(ethylene oxide) (PEO\u2212PPO\u2212PEO)] At even higher electrolyte concentrations, the systems can again be destabilized. The present paperattempts to explain the restabilization through the dominance of steric interactions and the destabilization through thedominance of depletion interactions. Because of salting out, as the concentration of electrolyte increases, the polymermolecules are increasingly precipitated onto the surface of the latex particles and, at sufficiently high electrolyteconcentrations, form, in addition, aggregates. The precipitation onto the latex particles generates steric repulsion,which is responsible for the restabilization, whereas the formation of aggregates generates depletion interactions,which are responsible for destabilization." . .