Boundary Effects on the Electrophoretic Motion of a Charged Particle in a Spherical Cavity

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

## proteins, which is frequently carried out on systems with The electrophoretic motion of a charged sphere in the presence low ka values and low surface potentials. ## of a rigid boundary is analyzed for low surface z potentials but The assumption of sphericity can be relaxed (7-9), as arbitra

The electrophoretic mobility of a spherical colloidal particle with low zeta potential near a solid charged boundary is calculated numerically for arbitrary values of the double layer thickness by a generalization of Teubner's method to the case of bounded flow. Three examples are considered: a sphe

to the effective decrease in size (15). The attachment of An analytical study is presented for the quasisteady translation polymers to microporous membranes offers the possibility and steady rotation of a spherical particle covered by a layer of of manipulating the transport rate of solvent and solu