Dynamics of colloid particle interaction. Incomplete desorption relaxation

Faraday Discussions of The Chemical Society Pub Date : 1990-01-01 DOI:10.1039/DC9909000261
S. Dukhin, J. Lyklema
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引用次数: 25

Abstract

We present a novel approach to the stability of lyophobic colloids by considering transient double-layer disequilibration of interacting particles. Deviations from equilibrium are accounted for via perturbation theory. Incomplete equilibration is related to a retarded desorption of charge-determining ions, which, in turn, leads to an increment in the disjoining pressure. The theory is elaborated for two interacting spheres and it is shown that under realistic conditions the relaxation retardation may become substantial. Under conditions where the relaxation retardation dominates, the stability ratio becomes independent of particle size.
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胶体粒子相互作用动力学。不完全解吸弛豫
我们提出了一种通过考虑相互作用粒子的瞬态双层不平衡来研究疏水胶体稳定性的新方法。用摄动理论来解释偏离平衡的情况。不完全平衡与电荷决定离子的缓慢解吸有关,这反过来又导致分离压力的增加。阐述了两个相互作用的球体的理论,并表明在实际条件下,弛豫迟滞可能会变得很大。当弛豫迟滞起主导作用时,稳定比与粒径无关。
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Faraday Discussions of The Chemical Society
Faraday Discussions of The Chemical Society
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