Charge-regulation modelling of the Schulze–Hardy rule and related coagulation effects

Faraday Discussions of The Chemical Society Pub Date : 1990-01-01 DOI:10.1039/DC9909000335
I. M. Metcalfe, T. Healy
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引用次数: 33

Abstract

The DLVO theory of colloid stability provided an explanation of the long-standing Schulze–Hardy rule, i.e. that the critical coagulation concentration (c.c.c.) is proportional to some inverse power of the counter-ion valency (z). For particular limiting cases the inverse power exponent was calculated to be either 2 or 6. By using the charge-regulation approach to double-layer interaction for real surfaces with identifiable surface sites, dissociation equilibria, new insights into the link between physiochemical parameters and the Schulze–Hardy exponent are obtained. The model also produces an important result, viz. that the total double-layer potential for the isolated particle at the c.c.c. solution condition, while different for each of a series of real materials, is independent of counter-ion valency (z).
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Schulze-Hardy规则的电荷调节模型及相关的凝聚效应
胶体稳定性的DLVO理论为长期存在的Schulze-Hardy规则提供了解释,即临界混凝浓度(c.c.c)与反离子价(z)的某些逆幂成正比。对于特定的极限情况,计算的逆幂指数为2或6。通过使用电荷调节方法对具有可识别表面位置的真实表面的双层相互作用,解离平衡,获得了物理化学参数与舒尔茨-哈迪指数之间联系的新见解。该模型还得出了一个重要的结果,即在cc溶液条件下,孤立粒子的总双层电势与反离子价(z)无关,而一系列实际材料的总双层电势不同。
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Faraday Discussions of The Chemical Society
Faraday Discussions of The Chemical Society
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