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Interfacial Engineering of Ni<sub>3</sub>N/Mo<sub>2</sub>N Heterojunctions for Urea-Assisted Hydrogen Evolution Reaction

Tongzhou Wang, Licheng Miao, Si Yu Zheng, Hongye Qin, Xuejie Cao, Lei Yang, Lifang Jiao

2023ACS Catalysis288 citationsDOI

Abstract

The urea oxidation reaction (UOR) is considered as an alternative to the oxygen evolution reaction for high-efficiency hydrogen production. However, an urea molecule is relatively complex, containing both electron-donating amino (−NH 2 ) and electron-withdrawing carbonyl (C═O) groups, and understanding the influence of different functional groups on the adsorption behavior is conducive to the rational design and preparation of high-performance UOR catalysts. Herein, we report a simple synthesis of the Ni 3 N/Mo 2 N heterostructure and a systematic investigation of urea-assisted electrolytic hydrogen production. Both temperature-programmed desorption and theoretical calculations decipher that −NH 2 and C═O groups of the urea molecule are more easily adsorbed on Ni 3 N and Mo 2 N, respectively. Meanwhile, the Ni 3 N/Mo 2 N heterostructure could combine and enhance the advantages of individual components, optimizing the adsorption of urea. Besides, this heterostructure is also beneficial to improving the hydrogen evolution reaction performance. As expected, in the two-electrode urea-assisted water electrolyzer utilizing Ni 3 N/Mo 2 N as bifunctional catalysts, hydrogen production can readily occur at an evidently lower voltage (1.36 V@10 mA cm –2 ), which is much lower than that of traditional water electrolysis, as well as 7 times higher hydrogen production rate is achieved.

Topics & Concepts

ElectrolysisCatalysisHydrogen productionUreaBifunctionalInorganic chemistryHydrogenAdsorptionOxygen evolutionElectrolysis of waterChemistryDesorptionChemical engineeringElectrolyteElectrodeElectrochemistryPhysical chemistryOrganic chemistryEngineeringElectrocatalysts for Energy ConversionAdvanced battery technologies researchAdvanced Photocatalysis Techniques