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High-Valent Ni Species Induced by Inactive MoO<sub>2</sub> for Efficient Urea Oxidation Reaction

Xingyu Huang, Runze He, Shuli Wang, Yun Yang, Ligang Feng

2022Inorganic Chemistry44 citationsDOI

Abstract

The microenvironment tuning of Ni species, a promising non-precious catalyst, is significant in the energy and environmentally relevant urea electro-oxidation reaction (UOR). Herein, we found that the high-valent Ni species induced by the inactive MoO2 in mixed nanocrystals of NiO/MoO2 were effective for urea oxidation. The redox interaction of MoO2 and NiO revealed by the spectroscopic analysis well supported the formation of high-valent Ni species and the changes in the surface chemical state. High catalytic activity and stability for urea oxidation were observed by a series of electrochemical measures compared to the counterpart catalysts of MoO2 and NiO. The optimal NiO/MoO2 hybrid catalyst showed a UOR activity of 73.1 mA cm–2 at 1.50 V, which was about 12-fold that of the NiO catalyst. In addition, largely improved catalytic kinetics and catalytic stability for UOR were also demonstrated. Because of the inactive activity of MoO2 and the low performance of NiO, the largely improved preference can be affirmatively attributed to the efficient catalytic synergism of NiO/MoO2 in the mixed nanocrystals. The current finding clarifies the catalytic promotion effect of the inactive Mo species on Ni-based catalysts for urea oxidation, which would be instructive for Ni/Mo-relevant catalyst development.

Topics & Concepts

ChemistryCatalysisNon-blocking I/OUreaRedoxInorganic chemistryOxidation stateOrganic chemistryElectrocatalysts for Energy ConversionCatalytic Processes in Materials ScienceAdvanced battery technologies research
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