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Abstract Herein, a self-assembled RuO2@IrOx core-shell heterostructure nanocomposite is designed and constructed to mediate oxygen evolution activity and sufficient durability. Enhanced by synergistic interactions of heterojunction between RuO2 and IrOx,… Click to show full abstract
Abstract Herein, a self-assembled RuO2@IrOx core-shell heterostructure nanocomposite is designed and constructed to mediate oxygen evolution activity and sufficient durability. Enhanced by synergistic interactions of heterojunction between RuO2 and IrOx, the RuO2@IrOx nanocomposite reveals lower overpotential (215 mV at 10 mA cm−2) than RuO2 (260 mV at 10 mA cm−2) and IrO2 (316 mV at 10 mA cm−2). After assembled into a homemade single-cell PEM water electrolyzer, a lower cell voltage of 1.683 V at 1 A cm−2 for RuO2@IrOx anode is obtained, compared with RuO2 (1.715 V at 1 A cm−2) and IrO2 (1.748 V at 1 A cm−2). Additionally, the RuO2@IrOx anode shows good stability at 1 A cm−2 over a 300 h stability test due to the effective protection of IrOx shell. This work offers an effective strategy to design and construct high efficient and long-term stable catalysts simultaneously.
Journal Title: Applied Surface Science
Year Published: 2020
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