Methyl Viologen Mediated Oxygen Reduction in Ethanol Solvent: the Electrocatalytic Reactivity of the Radical Cation |
Qianqi Lin, Qian Li, Christopher Batchelor-McAuley, Richard G. Compton |
Department of Chemistry, Physical and Theoretical Chemistry Laboratory, Oxford University;Department of Chemistry, Physical and Theoretical Chemistry Laboratory, Oxford University;Department of Chemistry, Physical and Theoretical Chemistry Laboratory, Oxford University;Department of Chemistry, Physical and Theoretical Chemistry Laboratory, Oxford University; |
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Abstract |
The study of methyl viologen ($MV^{2+}$) mediated oxygen reduction in electrolytic ethanol media possesses potential application in the electrochemical synthesis of hydrogen peroxide mainly due to the advantages of the much increased solubility of molecular oxygen ($O_2$) and high degree of reversibility of $MV^{2+/{ullet}+}$ redox couple. The diffusion coefficients of both $MV^{2+}$ and $O_2$ were investigated via electrochemical techniques. For the first time, $MV^{2+}$ mediated $O_2$ reduction in electrolytic ethanol solution has been proved to be feasible on both boron-doped diamond and micro-carbon disc electrodes. The electrocatalytic response is demonstrated to be due to the radical cation, $MV^{{ullet}+}$. The homogeneous electron transfer step is suggested to be the rate determining step with a rate constant of $(1{pm}0.1){ imes}10^5M^{-1}s^{-1}$. With the aid of a simulation program describing the EC' mechanism, by increasing the concentration ratio of $MV^{2+}$ to $O_2$ electrochemical catalysis can be switched from a partial to a 'total catalysis' regime. |
Key Words:
Methyl viologen, mediated oxygen reduction, ethanolic solution, diffusion coefficient and concentration of oxygen, homogeneous rate constant |
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