P. Wojtaszczyk, J. B. Avalos
Published 1997-12-05Version 1
The kinetics of irreversible adsorption of spherical particles onto a flat surface is theoretically studied. Previous models, in which hydrodynamic interactions were disregarded, predicted a power-law behavior $t^{-2/3}$ for the time dependence of the coverage of the surface near saturation. Experiments, however, are in agreement with a power-law behavior of the form $t^{-1/2}$. We outline that, when hydrodynamic interactions are considered, the assymptotic behavior is found to be compatible with the experimental results in a wide region near saturation.
Comments: 4 pages, 1 figures, Phys. Rev. Lett. (in press)
Irreversibility of mesoscopic processes with hydrodynamic interactions
Systematic model behavior of adsorption on flat surfaces
Generalized dynamical density functional theory for classical fluids and the significance of inertia and hydrodynamic interactions
