Chemical Composition and Surface Roughness of AlOx-Controlled Activity of Pt/AlOx Thin Film Catalysts for Methanol Oxidation Reaction

Chemical composition and surface roughness of AlOx films were facilely controlled by manipulating O-2/Ar ratio during aluminum oxide sputter-deposition process. Pt/AlOx catalyst synthesized with O-2/Ar ratio of 2 % exhibits the highest roughness (8.55 nm) and lowest O/Al ratio (0.11), which showed the best catalytic activity with a methanol conversion rate of 92.5 % and a remarkable temperature rise of 12 A degrees C induced by exothermic reaction at 100 A degrees C. It was demonstrated that Pt/AlOx catalysts had significant higher activity for methanol oxidation when the AlOx was nonstoichiometric compared with its stoichiometric counterpart (Al2O3). The outstanding catalytic performance and novel nanostructure of the deposited Pt/AlOx thin film catalyst endow it with great potential for developing next-generation energy conversion devices and combustible gas sensors.