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Iron-Doped Nickel Molybdate with Enhanced Oxygen Evolution Kinetics.

Jiayi ChenGuoqiang ZhaoYaping ChenKun RuiHui MaoShi Xue DouWenping Sun
Published in: Chemistry (Weinheim an der Bergstrasse, Germany) (2018)
Electrochemical water splitting is one of the potential approaches for making renewable energy production and storage viable. The oxygen evolution reaction (OER), as a sluggish four-electron electrochemical reaction, has to overcome high overpotential to accomplish overall water splitting. Therefore, developing low-cost and highly active OER catalysts is the key for achieving efficient and economical water electrolysis. In this work, Fe-doped NiMoO4 was synthesized and evaluated as the OER catalyst in alkaline medium. Fe3+ doping helps to regulate the electronic structure of Ni centers in NiMoO4 , which consequently promotes the catalytic activity of NiMoO4 . The overpotential to reach a current density of 10 mA cm-2 is 299 mV in 1 m KOH for the optimal Ni0.9 Fe0.1 MoO4 , which is 65 mV lower than that for NiMoO4 . Further, the catalyst also shows exceptional performance stability during a 2 h chronopotentiometry testing. Moreover, the real catalytically active center of Ni0.9 Fe0.1 MoO4 is also unraveled based on the ex situ characterizations. These results provide new alternatives for precious-metal-free catalysts for alkaline OER and also expand the Fe-doping-induced synergistic effect towards performance enhancement to new catalyst systems.
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