부산대학교 도서관

Control over the interchromophore separation, their angular relationship, and the spatial overlap of their electronic clouds in several ZnP–C60dyads (ZnP=zinc porphyrin) is used to modulate the rates of intramolecular electron transfer. For the first time, a detailed analysis of the charge transfer absorption and emission spectra, time‐dependent spectroscopic measurements, and molecular dynamics simulations prove quantitatively that the same two moieties can produce widely different electron‐transfer regimes. This investigation also shows that the combination of ZnPand C60consistently produces charge recombination in the inverted Marcus region, with reorganization energies that are remarkably low, regardless of the solvent polarity. The time constants of electron transfer range from the μs to the ps regime, the electronic couplings from a few tens to several hundreds of cm−1, and the reorganization energies remain below 0.54 eV and can be as low as 0.16 eV.