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DOI: 10.1039/A604691F (Paper) Reference Section for: J. Chem. Soc., Perkin Trans. 2, 1997, 25-30

Laser flash photolysis study of the mechanism of photooxidation of alkanes catalysed by decatungstate anion

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Ludmila P. Ermolenko, Jacques A. Delaire and Charles Giannotti

Abstract

Generated during light excitation, the O(2p) → W(5d) ligand-to-metal charge transfer (LMCT) excited state of decatungstate anion (W10O324-) relaxes for t < 30 ps to a transient X which persists for 5 ns. In the nanosecond time domain, it reacts with all components of the photocatalytic system (substrate, organic counter-ion and solvent) to give a one-electron reduced decatungstate species HW10O324- and an organic radical R˙. The latter is quenched by dioxygen at a near diffusion-controlled rate, forming a peroxyl radical ROO˙. In the solvent cage, the peroxyl radical ROO˙ reoxidizes HW10O324- to give the hydroperoxide ROOH and W10O324-, thus closing the catalytic cycle. The catalyst reoxidation is the rate-limiting step of the alkane oxidation.

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