\Study of ethylene glycol electrooxidation and its partial products oxidation on Pt and PtRu electrodes\

The eletrooxidation of ethylene glycol and its partial oxidation products, glycolic acid and glycolaldehyde was studied on Pt and PtRu electrodes. Cyclic voltammetry and chronoamperometry were used for the electrochemical characterization. The nature of the reaction products and intermediates was studied by in situ Fourier transform infrared spectroscopy and high performance liquid chromatography. The oxidation reaction is catalyzed by PtRu; the maximum current density observed was 11 μA cm-2 for a ruthenium content between 30% and 40%. Adsorbed CO and residual species containing two carbon atoms as well as CO2 glycolaldehide and glycolic acid were detected by FTIR spectroscopy. Although the quantitative determination of glycolaldehyde was not possible, the results allowed an indirect estimation of this product, which starts to be formed already at 0.05V. It was found that glycolaldehyde is the main reaction product. PtRu favors the scission of the C-C bond. Thus, much higher CO coverage was found at the alloy than at pure Pt. An increase in the amount of glycolaldehyde at PtRu indicates that this material also catalyzes the scission of the C-H bond. This effect is probably due to an electronic modification of Pt caused by the presence of ruthenium, since pure Ru is not active for adsorbing or oxidizing ethylene glycol and much less Pt sites are available at PtRu. (AU)