Reaction-limited Colloidal Aggregation Induced by Salt and Inert Polymers

Abstract

Salt-induced aggregation of 20 nm colloidal silica is followed by light transmission, which shows an a kinetic form exp[-(t/t0)α], where α = 2.6 and t0 is an empirical time constant which reflects the colloidal stability. We found a power law dependence of t0 on ionic strength, which can be explained by the classical DLVO theory. The neutral polymers polyethylene glycol (PEG) accelerate the aggregation rate, and those with higher molecular weight are more effective in inducing the aggregation with similar stretched exponential form of kinetics. Current theories of polymer-mediated interactions provide a reasonable interpretation of the effect of PEG. The stretched exponential kinetics of the light transmission is found to be consistent with a cluster-size dynamic scaling model of aggregation.