Highly selective urea electrooxidation coupled with efficient hydrogen evolution

Author:

Zhan GuangmingORCID,Hu Lufa,Li HaoORCID,Dai JieORCID,Zhao LongORCID,Zheng Qian,Zou Xingyue,Shi YanbiaoORCID,Wang Jiaxian,Hou Wei,Yao Yancai,Zhang LizhiORCID

Abstract

AbstractElectrochemical urea oxidation offers a sustainable avenue for H2 production and wastewater denitrification within the water-energy nexus; however, its wide application is limited by detrimental cyanate or nitrite production instead of innocuous N2. Herein we demonstrate that atomically isolated asymmetric Ni–O–Ti sites on Ti foam anode achieve a N2 selectivity of 99%, surpassing the connected symmetric Ni–O–Ni counterparts in documented Ni-based electrocatalysts with N2 selectivity below 55%, and also deliver a H2 evolution rate of 22.0 mL h–1 when coupled to a Pt counter cathode under 213 mA cm–2 at 1.40 VRHE. These asymmetric sites, featuring oxygenophilic Ti adjacent to Ni, favor interaction with the carbonyl over amino groups in urea, thus preventing premature resonant C⎓N bond breakage before intramolecular N–N coupling towards N2 evolution. A prototype device powered by a commercial Si photovoltaic cell is further developed for solar-powered on-site urine processing and decentralized H2 production.

Publisher

Springer Science and Business Media LLC

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