Concerted Multiproton-Multielectron Transfer for the Reduction of O-2 to H2O with a Polyoxovanadate Cluster

摘要

The concerted transfer of protons and electrons enables the activation of small-molecule substrates by bypassing energetically costly intermediates. Here, we present the synthesis and characterization of several hydrogenated forms of an organofunctionalized vanadium oxide assembly, V6O13(TRIOLNO2)(2)(2-), and their ability to facilitate the concerted transfer of protons and electrons to O-2. Electrochemical analysis reveals that the fully reduced cluster is capable of mediating 2e(-)/2H(+) transfer reactions from surface hydroxide ligands, with an average bond dissociation free energy (BDFE) of 61.6 kcal/mol. Complementary stoichiometric experiments with hydrogen-atom-accepting reagents of established bond strengths confirm that the electrochemically established BDFE predicts the 2H(+)/2e(-) transfer reactivity of the assembly. Finally, the reactivity of the reduced polyoxovanadate toward O-2 reduction is summarized; our results indicate a stepwise reduction of the substrate, proceeding through H2O2 en route to the formation of H2O. Kinetic isotope effect experiments confirm the participation of hydrogen transfer in the rate-determining step of both the reduction of O-2 and H2O2. This work constitutes the first example of hydrogen atom transfer for small-molecule activation with reduced polyoxometalates, where both electron and proton originate from the cluster.