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Tunneling barrier effects on photoinduced charge transfer through covalent rigid rod-like bridges
Four homologous dyads with a phenothiazine donor, rigid variable-length p-xylene bridges, and a ruthenium(ll) tris(2,2′-bipyridine) acceptor were synthesized. Photoexcitation of these donor-bridge-acceptor molecules in the presence of excess methylviologen generates a highly oxidizing Ru(lll) intermediate, which triggers an intramolecular phenothiazine-to-ruthenium(lll) electron transfer that is mediated by the oligo-p-xylene spacers. The rates for this process were determined using transient absorption spectroscopy, and they are found to decrease exponentially with increasing donor-acceptor distance. This decrease occurs with an attenuation factor beta of 0.77 A-1 and is substantially stronger than for analogous donor-bridge-acceptor molecules where the acceptor is a rhenium(l) tricarbonyl diimine complex (beta = 0.52 A-1). This striking finding is interpreted in terms of a larger barrier to hole tunneling in the ruthenium dyads relative to the rhenium systems.
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Highly efficient and robust molecular ruthenium catalysts for water oxidation,
Catalysts | Special Issue : Ruthenium Catalysts – MDPI