Microscopic theory of solvation of an ion in a binary dipolar liquid

A microscopic theory is described for the ion solvation dynamics in binary dipolar liquids. The theory is self-contained and properly includes inertial and non-Markovian effects which are extremely important in the fast initial phase of the relaxation. The theory also includes diffusional effects im

Theoretical expressions for the time-dependent salvation energy of an ion and of a dipole in a dense dipolar liquid are derived from microscopic considerations. We show that in contradiction to the prediction of the continuum models, the dynamics of these two species are significantly different from

The density distribution of an iodide ion in the vicinity of a water/platinum interface has been calculated by classical molecular dynamics simulations based on painvise additive interaction potentials. The approach of the iodide ion to the surface is strondy sterically hindered by the layer of adso