Electrokinetic lift force for a charged particle moving near a charged wall - a modified theory and experiment

摘要

We present the refined theory of the electrokinetic lift force for a charged particle moving at a charged wall at the distance much larger than the double layer thickness. The theory is based on the lubrication approximation for the solution of the Stokes equation for the flow around a long cylinder moving near a solid wall. The "thin double layer" approximation is used to solve the ionic balance and electro-osmotic flow equations. The electrokinetic lift force is then obtained by integration of the viscous stress tensor as well as the Maxwell stress tensor over the particle surface. The resulting lift force for the cylinder translating, rotating at the wall as well as for the stationary cylinder in the wall shear how, is considered. Following this, we apply the Derjaguin approximation to transform the obtained results to the sphere-wall geometry and we compare our theoretical predictions with the measurements of the electrokinetic lift force performed in the "colloidal particle collider" apparatus for the latex particles suspended in the glycerol-water solutions. Our theoretical results for the electrokinetic lift force exceeds by several orders of magnitude one obtained from the previously developed theory and are in a good agreement with experimental findings. (C) 1998 Elsevier Science B.V. All rights reserved. [References: 19]