Abstract
We describe studies of electron transfer in donor−spacer−acceptor molecules for which the highly curved spacer topology imparts a vacant cleft along the “line-of-sight” between the electron donor and electron acceptor moieties. The electron transfer kinetics in nondipolar and weakly polar solvents allow experimental determination of the reaction free energy as a function of solvent structure and temperature. These data were used to parametrize a molecular solvation model developed by Matyushov. The model provides reasonable estimates of reaction free energy in solvents that are too polar for its direct measurement and provides reasonable values of the solvent reorganization energy in all solvents. Successful modeling of the solvation enables quantitative study of the factors that control electron tunneling through molecules located in the solute's cleft, i.e., the electronic coupling. Electron tunneling in these systems is mediated by the unoccupied orbitals of the solvent (“electron-mediated superexchang...
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