Transition dipole-solvent interaction in optical electron transfer

The interaction between solvent molecules and transition dipoles results in a measurable non-equilibrium electronic contribution to the energetics of photoionization in the case of significant dielectric dispersion of the solvent at the prevailing photon energy. Earlier theoretical work on the resul

Data for AH,, the enthalpy of activation determining the temperature dependence of the Debye relaxation time have been collected and compared for polar aprotic solvents of lower molecular weight. It is shown that the variation in this quantity with solvent can be largely attributed to a correspondin

Path integral techniques are used to study a simple model of barrierless electron transfer where the energy gap between two electronic states is subject to Gaussian random noise induced by solvent fluctuations. The kinetics of electron transfer are related to the statistics of zero-crossings of the

## Abstract The contribution of long‐range forces to the observed rates of __V__ → __V__ energy transfer processes has been studied. The theoretical model uses the first order perturbation approximation to generate a probability function, with the dipole–dipole perturbing potential as given by Marg