We report the selective electrocatalytic oxidation of glycerol for the cogeneration of mesoxalic acid and electricity on a gold anode catalyst in anion-exchange membrane fuel cells (AEMFCs). Small Au nanoparticles (3.5 nm) were uniformly deposited onto carbon black with a loading of 40 wt % through a solution-phase method. An AEMFC with this Au/C anode catalyst, together with an Fe-based cathode catalyst, exhibited a peak power density of 57.9 mW cm−2 at 80 °C. Valuable mesoxalic acid was produced with high selectivity (46 %) from the electro-oxidation of glycerol on Au/C at an operating voltage of 0.3 V, whilst very small amounts of mesoxalic acid (selectivity<3 %) were obtained on a Pt/C anode catalyst in AEMFCs. The product distribution was dependent on the anode overpotential. At 1.2 V versus the standard hydrogen electrode (SHE) in an electrolysis cell, glycolic acid was the major product (selectivity: 65 %) and no mesoxalic acid was observed. Based on the product analysis, we found that Au facilitated deeper-oxidation of glycerol to afford the fully-oxidized C3 mesoxalic acid, rather than CC cleavage, under a mild potential range (0.4–0.7 V vs. SHE) that was fortunately within the working voltage range of the fuel cells.
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