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Ampere-level current density ammonia electrochemical synthesis using CuCo nanosheets simulating nitrite reductase bifunctional nature.

Jia-Yi FangQi-Zheng ZhengYao-Yin LouKuang-Min ZhaoSheng-Nan HuGuang LiOuardia AkdimXiao-Yang HuangShi-Gang Sun
Published in: Nature communications (2022)
The development of electrocatalysts capable of efficient reduction of nitrate (NO 3 - ) to ammonia (NH 3 ) is drawing increasing interest for the sake of low carbon emission and environmental protection. Herein, we present a CuCo bimetallic catalyst able to imitate the bifunctional nature of copper-type nitrite reductase, which could easily remove NO 2 - via the collaboration of two active centers. Indeed, Co acts as an electron/proton donating center, while Cu facilitates NO x - adsorption/association. The bio-inspired CuCo nanosheet electrocatalyst delivers a 100 ± 1% Faradaic efficiency at an ampere-level current density of 1035 mA cm -2 at -0.2 V vs. Reversible Hydrogen Electrode. The NH 3 production rate reaches a high activity of 4.8 mmol cm -2 h -1 (960 mmol g cat -1 h -1 ). A mechanistic study, using electrochemical in situ Fourier transform infrared spectroscopy and shell-isolated nanoparticle enhanced Raman spectroscopy, reveals a strong synergy between Cu and Co, with Co sites promoting the hydrogenation of NO 3 - to NH 3 via adsorbed *H species. The well-modulated coverage of adsorbed *H and *NO 3 led simultaneously to high NH 3 selectivity and yield.
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