Abstract
Fuel cells represent a challenging overlap of catalysis and electrochemistry. This is illustrated by anode reactions in a solid oxide fuel cell. The sites for catalytic conversion of methane and electrochemical conversion of hydrogen on an SOFC anode appear not to be the same. The fuel (methane, hydrogen, etc.) is activated by chemisorption on the nickel surface of the anode. This is linked to the electrochemical reaction at the interface of the electrolyte and the nickel crystals converting oxygen ions into electrons and water by reactions with adsorbed hydrogen atoms resulting from the activation of the fuel. The sites for these reactions appear not to be the same. This is reflected by different sensitivities of the two steps to sulphur poisoning. The role of different sites on the nickel surface for the steam reforming reaction is well understood in terms of impact on activity for methane activation, carbon formation and sintering. The study is supplemented by an analysis of anodes having been exposed to 13000 of operation using a number of characterisation methods.
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82.47.Ed; 82.45.-h; 82.65.-s
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Rostrup-Nielsen, J., Hansen, J., Helveg, S. et al. Sites for catalysis and electrochemistry in solid oxide fuel cell (SOFC) anode. Appl. Phys. A 85, 427–430 (2006). https://doi.org/10.1007/s00339-006-3702-1
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DOI: https://doi.org/10.1007/s00339-006-3702-1