Electrokinetic Lift of Small Particles

The presence of a thin polymer layer on the surface of a colloidal particle can have a profound effect on its electrophoretic mobility. The model developed here treats the hydrodynamics of the polymer layer as a distribution of Stokes resistance centers within a thin diffuse layer; fixed charge may

By measuring the distribution in electrophoretic mobility of dispersed colloidal particles as well as their size distribution, detailed information can be obtained about the electrokinetic properties of the surfaces of the particles. Instead of characterizing a colloidal particle solely by its \(\ze

Catalytic properties of small particles often depend sensitively on particle size aud can exhibit activities which am specific to particular site coordinations. We have calculated the equilibrium structums and isomerization rates of small metal particles as functions of number of atoms and temperatu

An energy-balance resuspension model is modified and applied to the resuspension of a monolayer of nondeformable spherical particles. The particle-surface adhesive force is calculated from a microscopic model based on the Lennard-Jones intermolecular potential. Pairwise additivity of intermolecular

Here, reflt'x'ted shock temperatures were calcu-lal~ by assuming that tmndational, rotational and vii~rational freedoms of all species were completely relaxed. However, vibrational relaxation of nitrogen is comparable to the induction peric, d in the present experimental conditions -~. Another calcu