Effect of nonuniform zeta potential on particle movement in electric fields

Nonmagnetic colloids, polystyrene latex particles in electrolyte solutions, are exposed to a magnetic field of low flux density, and effects of the magnetic exposure on their zeta potential and diffusivity are investigated, measuring the mobility by microelectrophoresis and the diffusivity by photon

When a weak electric field is applied to longitudinal sections of myelinated nerve, myelin material migrates out of the tissue edges towards both poles. The materials migrating from the anodal and cathodal edges seem to be chemically similar but differ in physical properties. At the anodal edge the

The equations developed by C. S. Mangelsdorf and L. R. White (J. Chem. Soc. Faraday Trans. 88, 3567 (1992)) to calculate the electrophoretic mobility of a solid, spherical colloidal particle subjected to an oscillating electric field are solved analytically for low zeta potential, \(\zeta\), to obta