Overcharging in Colloids: Beyond the Poisson–Boltzmann Approach

泊松-玻尔兹曼方程 统计物理学 表面电荷 离子 航程(航空) 化学 粒子(生态学) 胶体 化学物理 带电粒子 反离子 离子键合 聚电解质 物理 材料科学 物理化学 聚合物 复合材料 有机化学 地质学 海洋学
作者
Manuel Quesada‐Pérez,Enrique González‐Tovar,Alberto Martín‐Molina,Marcelo Lozada‐Cassou,R. Hidalgo‐Álvarez
出处
期刊:ChemPhysChem [Wiley]
卷期号:4 (3): 234-248 被引量:189
标识
DOI:10.1002/cphc.200390040
摘要

Abstract A broad range of manufactured products and biological fluids are colloids. The ability to understand and control the processes (of scientific, technological and industrial interest) in which such colloids are involved relies upon a precise knowledge of the electrical double layer. The traditional approach to describing this ion cloud around colloidal particles has been the Gouy–Chapman model, developed on the basis of the Poisson–Boltzmann equation. Since the early 1980s, however, more sophisticated theoretical treatments have revealed both quantitative and qualitative deficiencies in the Poisson–Boltzmann theory, particularly at high ionic strengths and/or high surface charge densities. This review deals with these novel approaches, which are mostly computer simulations and approximate integral equation theories based on the so‐called primitive model. Special attention is paid to phenomena that cannot be accounted for by the classic theory as a result of neglecting ion size correlations, such as overcharging, namely, the counterion concentration in the immediate neighborhood of the surface is so large that the particle surface is overcompensated. Other illustrative examples are the nonmonotonic behavior of the electrostatic potential and attractive interactions between equally charged surfaces. These predictions are certainly remarkable and, on paper, they can have an effect on experimentally measurable quantities (for instance, electrophoretic mobility). Even so, these new approaches have scarcely been applied in practice. Thus a critical survey on the relevance of ion size correlation in real systems is also included. Overcharging of macroions can also be brought about by adsorption of oppositely charged polyelectrolytes. Noteworthy examples and theoretical approaches for them are also briefly reviewed.

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