Comparative study of carbon-supported Pt/Mo-oxide and PtRu for use as CO-tolerant anode catalysts

摘要

Carbon-supported Pt/Mo-oxide catalysts were prepared, and the reformate tolerances of Pt/MoO{sub}x/C and conventional PtRu/C anodes were examined to clarify the features and differences between these catalysts. Fuel cell performance was evaluated under various reformate compositions and operating conditions, and the CO concentrations at the anode outlet were analyzed simultaneously using on-line gas chroniatography. Pt/MoO{sub}x showed better CO tolerance than PtRu with CO(80ppm)/H{sub}2 mixtures, especially at higher fuel utilization conditions, which is mainly due to the higher catalytic activity of Pt/MoO{sub}x for the water-gas shift (WGS) reaction and electro-oxidation of CO. In contrast, the CO{sub}2 tolerance of Pt/MoO{sub}x was much worse than that of PtRu with a CO{sub}2(20%)/H{sub}2 mixture. The results of voltammetry indicated that the coverage of adsorbates generated by CO{sub}2 reduction on Pt/MoO{sub}x was higher than that on PtRu, and therefore, the electro-oxidation of H{sub}2 is partly inhibited on Pt/MoO{sub}x in the presence of 20% CO{sub}2. With CO(80 ppm)/CO{sub}2(20%)/H{sub}2, the voltage losses of Pt/MoO{sub}x and PtRu are almost equal to the sum of the losses with each contaminant component. Although the adsorbate coverage on Pt/MoO{sub}x increases in the presence of 20% CO{sub}2, CO molecules in the gas phase could still adsorb on Pt through an adsorbate 'hole' to promote WGS or electro-oxidation reactions, which leads to a reduction in the CO concentration under CO/CO{sub}2/H{sub}2 feeding conditions.