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Ultrasmall Abundant Metal-Based Clusters as Oxygen-Evolving Catalysts.

Xin-Bao HanXing-Yan TangYue LinEduardo Gracia-EspinoSan-Gui LiuHai-Wei LiangGuang-Zhi HuXin-Jing ZhaoHong-Gang LiaoYuan-Zhi TanThomas WagbergSu-Yuan XieLan-Sun Zheng
Published in: Journal of the American Chemical Society (2018)
The oxygen evolution reaction is a crucial step in water electrolysis to develop clean and renewable energy. Although noble metal-based catalysts have demonstrated high activity for the oxygen evolution reaction, their application is limited by their high cost and low availability. Here we report the use of a molecule-to-cluster strategy for preparing ultrasmall trimetallic clusters by using the polyoxometalate molecule as a precursor. Ultrafine (0.8 nm) transition-metal clusters with controllable chemical composition are obtained. The transition-metal clusters enable highly efficient oxygen evolution through water electrolysis in alkaline media, manifested by an overpotential of 192 mV at 10 mA cm-2, a low Tafel slope of 36 mV dec-1, and long-term stability for 30 h of electrolysis. We note, however, that besides the excellent performance as an oxygen evolution catalyst, our molecule-to-cluster strategy provides a means to achieve well-defined transition-metal clusters in the subnanometer regime, which potentially can have an impact on several other applications.
Keyphrases
  • transition metal
  • highly efficient
  • metal organic framework