Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
191213 | Electrochimica Acta | 2010 | 8 Pages |
Ruthenium-oxide nanosheet (RuO2ns) crystallites with thickness less than 1 nm were prepared via chemical exfoliation of a layered potassium ruthenate and deposited onto carbon supported platinum (Pt/C) as a potential co-catalyst for fuel cell anode catalysts. The electrocatalytic activity towards carbon monoxide and methanol oxidation was studied at various temperatures for different RuO2ns loadings. An increase in electrocatalytic activity was evidenced at temperatures above 40 °C, while little enhancement in activity was observed at room temperature. The RuO2ns modified Pt/C catalyst with composition of RuO2:Pt = 0.5:1 (molar ratio) exhibited the highest methanol oxidation activity. CO-stripping voltammetry revealed that RuO2ns promotes oxidation of adsorbed CO on Pt. In addition to the enhanced initial activity, the RuO2ns modified Pt/C catalyst exhibited improved stability compared to pristine Pt/C against consecutive potential cycling tests.