Effect of Particle Size on the Kinetics of Particle Deposition under Attractive Double Layer Interactions

The purpose of the present study is to investigate theoretically, by using a disk model, the effect of finite particle size on the electrical double layer of a 2:1 clay mineral particle suspended in a 1-1 electrolyte solution. The clay mineral particle is represented as a thin disk with negatively c

Atomic force microscopy in conjunction with the colloid (silica) probe technique has been used to quantify the variations in electrical double-layer interactions and adhesion at different locations on a rough reverse osmosis membrane (AFC99) surface in NaCl solutions. Prior scanning of the membrane

The effects of carbon black particle size on multifunctional additive (MFA)-carbon black interaction have been studied. A monolayer coverage of the carbon black is found to correspond to the MFA level for optimum mechanical properties. This optimum MFA level was found to vary with the surface area o

Dynamic light scattering was used to study the Brownian translational diffusion and rate of Brownian aggregation of Laponite (RD) clay particles at low (millimolar) electrolyte concentrations. Laponite is a manufactured clay consisting of monodisperse disk-shaped particles with a 30-nm diameter and