Abstract
Glycerol, a surplus byproduct of biodiesel production, is a promising energy source for fuel cells. However, the low selectivity toward the complete-oxidation product, carbon dioxide (CO2), hinders the electro-oxidation of glycerol. In this work, we combine spectro-electrochemical studies of extended surfaces using sum frequency generation and product-resolved electrocatalytic measurements on high-surface-area catalysts under potentiostatic conditions to investigate the glycerol oxidation reaction on platinum (Pt). We observed adsorbing carbon monoxide (CO) as the reaction intermediate at potentials as low as 0.05 V (vs the reversible hydrogen electrode; the same potential scale is used throughout this discussion unless otherwise specified) on polycrystalline Pt electrode, indicating that cleavage of the C–C bond in glycerol is feasible on Pt. This observation is in contradiction to the low selectivity toward CO2 (with a faradaic efficiency of <4%) measured by the electrocatalytic studies on Pt/C. The dis...
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