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Boosting the durability of RuO2 via confinement effect for proton exchange membrane water electrolyzer

Nature Communications [2025]
Zheng Wen-Xing, Cheng Xuan-Xuan, Chen Ping-Ping, Wang Lin-Lin, Duan Ying, Feng Guo-Jin, Wang Xiao-Ran, Li Jing-Jing, Zhang Chao, Yu Zi-You, Lu Tong-Bu
ABSTRACT

Ruthenium dioxide has attracted extensive attention as a promising catalyst for oxygen evolution reaction in acid. However, the over-oxidation of RuO 2 into soluble H 2 RuO 5 species results in a poor durability, which hinders the practical application of RuO 2 in proton exchange membrane water electrolysis. Here, we report a confinement strategy by enriching a high local concentration of in-situ formed H 2 RuO 5 species, which can effectively suppress the RuO 2 degradation by shifting the redox equilibrium away from the RuO 2 over-oxidation, greatly boosting its durability during acidic oxygen evolution. Therefore, the confined RuO 2 catalyst can continuously operate at 10 mA cm –2 for over 400 h with negligible attenuation, and has a 14.8 times higher stability number than the unconfined RuO 2 catalyst. An electrolyzer cell using the confined RuO 2 catalyst as anode displays a notable durability of 300 h at 500 mA cm –2 and at 60 °C. This work demonstrates a promising design strategy for durable oxygen evolution reaction catalysts in acid via confinement engineering.

MATERIALS

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