Site-specific hydrogen abstraction in the electrochemical oxidation of ketones

The nuclear magnetic resonance study of site-specific natural isotope fractionation (SNIF-NMR) produced in the glycolytic conversion of glucose into ethanol and glycerol provides isotopic transfer coefficients, a ij , which relate sites i in the products to sites j in the reactants. The isotopic con

## Abstract **BACKGROUND:** The combination of electrochemical oxidation using a Ti/RuO~2~IrO~2~ anode with hydrogen peroxide has been used for the degradation of Crystal Violet. The effect of major parameters such as initial pH, hydrogen peroxide concentration, current density, electrolyte concen

Ahtract-The performance of porous Pt-containing H, electrodes is found to be itiuenced by masstransport effects. Pt-WO, electrodes are about twice as active as electrodes containing commercial R-C fuel cell catalysts in hydrogen oxidation. From our catalytic hydrogenation studies it follows tba1 thi

## Abstract The electrode performances of the alternative oxides: La~0.05~Ca~0.95~Cr~0.05~Ti~0.95~O~3‐δ~‐8YSZ and Ce~0.8~TM~0.2~O~2‐δ~(TM=Mn, Co) for the direct electrochemical oxidation of methane are investigated to assess their potential as anode materials for efficient methane conversion in a S