Photoinduced electron transfer in ruthenium(II)/tin(IV) multiporphyrin arrays

The photophysical behavior of a series of heterometallic arrays made of a central Sn(IV) porphyrin connected respectively, to two (SnRu(2)) four (SnRu(4)), or six (SnRu(6)) ruthenium porphyrin units has been studied in dichloromethane Two different motifs connect the ruthenium porphyrin units to central tin porphyrin core, axial coordination via ditopic bridging ligands and/or coordination to peripheral pyridyl groups of the central porphyrin ring A remarkable number of electron transfer processes (photoinduced charge separation and recombination processes) have been time-resolved using a combination of emission spectroscopy and last (nanosecond) and ultrafast (femtosecond) absorption techniques In these systems both types of molecular components can be selectively populated by light absorption In all the arrays the local excited states of these units (the tin porphyrin singlet excited state and the ruthenium porphyrin triplet state) arc quenched by electron transfer leading to a charge-separated state where the ruthenium porphyrin unit is oxidized and the tin porphyrin unit is reduced For each array the two forward electron transfer processes as well as the charge recombination process leading back to the ground state have been kinetically resolved the rate constants obey standard free-energy correlations with the forward processes lying in the normal free-energy regime and the back reactions in the Marcus inverted region The comparison between the trimeric (SnRu(2)) and pentameric (SnRu4) arrays shows that all the electron transfer processes are faster in the latter than in the former system This can be rationalized in terms of differences in electronic factors (due to the different connecting motifs) and driving force In less polar solvents, such as toluene, the energy of the charge-separated states is substantially lifted, leading to a switch (from electron transfer to triplet energy transfer) in the deactivation mechanism of the excited ruthenium triplet