Abstract
A novel self-humidifying membrane electrode assembly (MEA) with homemade multi-functional Pt/SnO2–SiO2/C as the anode was developed to improve the performance of a proton exchange membrane fuel cell under low humidity. The MEAs' performance was evaluated at various temperatures and relative humidity levels. One MEA with a Pt/SnO2–SiO2/C anode catalyst achieved excellent low-humidity performance at a cell temperature of up to 60 °C: the current density reached 600 mA cm−2 at 0.7 V and 1050 mA cm−2 at 0.6 V with 10% RH; after 96 h of continuous operation under the same conditions, the current density decreased by only 16% (to ∼880 mA cm−2), whereas the current density of an MEA with JM Pt/C as the anode degraded by more than 60% within 10 h. The contact angle of the Pt/SnO2–SiO2/C anode was much lower than that of the Pt/C anode, indicating the former's excellent wettability. The high performance of the MEA with the Pt/SnO2–SiO2/C anode is attributable to the wettability of the doped binary oxide, especially of silicon oxide, and the promotion of tin oxide, which caused an interaction between the Pt and the oxide, resulting in enhanced performance under low humidification.
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