Hydrodynamic interactions in quasi-two-dimensional colloidal suspensions

The library presented here allows the efficient calculation of friction and mobility matrices that describe the hydrodynamic interactions between identical spherical particles suspended in a liquid, assuming stick boundary conditions on the particle surfaces. It allows an arbitrary mixture of fixed

The high-frequency shear modulus of a monodisperse colloidal suspension is derived from both linear response theory and a zero-time correlation function. The results are shown to reduce to the classical expression valid for molecular fluids in the limit of no hydrodynamic interaction. The expression

Over the last five years significant progress has been made in understanding interactions in zeolite colloidal suspensions by elucidating the molecular interactions between zeolite crystal surface and species such as water, cations, and organic templates. This is the outcome of multidisciplinary wor

Hydrodynamic and colloidal interactions are explored in concentrated, charge-stabilized colloidal dispersions by measuring the dependence of rheology (e.g., low and high-shear viscosity, high-frequency viscosity, and modulus) and self-diffusivity on salt content, particle size, and concentration. Mo