Electrophoretic Mobility of a Cylindrical Colloidal Particle in a Salt-Free Medium

A general expression as well as approximate expressions are derived for the electrophoretic mobility of dilute spherical colloidal particles in a salt-free medium containing only counter ions. It is shown that there is a certain critical value of the particle surface charge. When the particle surfac

Accurate approximate formulas are obtained for the dynamic electrophoretic mobility of a cylindrical hard colloidal particle in an oscillating electric field for two cases where the cylinder is in a transverse field or in a tangential field. These formulas, expressed in terms of Hankel functions and

In the present paper, we use directly the method of Oh-A general expression for the dynamic electrophoretic mobility shima et al. (9) without decomposing the electrophoresis of a spherical colloidal particle in an oscillating electric field is problem as in Ref. (8) to solve the electrokinetic equat

On the basis of a theory of Imai and Oosawa (Busseiron Kenkyu52, 42 (1952); 59, 99 (1953)), approximate analytic expressions for the surface charge density/surface potential relationship for a spherical colloidal particle in a salt-free (aqueous or nonaqueous) medium containing only counterions are

An approximate analytic expression for the electrophoretic mobility of a spherical colloidal particle in a symmetrical electrolyte solution is obtained. This mobility expression, which is correct to the order of the third power of the ζ-potential of the particle, considerably improves Henry's mobili

ARTICLE NO. CS975220 NOTE Electrophoretic Mobility of a Spherical Particle in a Spherical Cavity where Ç 2 is the Laplace operator, r the space charge density, e the permittivity of the liquid phase, N the number of ionic species, z j and The electrophoretic mobility U of a spherical particle in a n