Design of Single‐Atom Catalysts for E lectrocatalytic Nitrogen Fixation

This Review analyzes subfields of electrochemical nitrogen reduction (ENRR) from the perspective of the nitrogen fixation. The key factors of ENRR and the Single atom catalyst (SAC) applied in ENRR are evaluated. In addition, strategies that can effectively improve ENRR activity were analyzed from the perspective of SACs.

Abstract

The Electrochemical nitrogen reduction reaction (ENRR) can be used to solve environmental problems as well as energy shortage. However, ENRR still faces the problems of low NH₃ yield and low selectivity. The NH₃ yield and selectivity in ENRR are affected by multiple factors such as electrolytic cells, electrolytes, and catalysts, etc. Among these catalysts are at the core of ENRR research. Single-atom catalysts (SACs) with intrinsic activity have become an emerging technology for numerous energy regeneration, including ENRR. In particular, regulating the microenvironment of SACs (hydrogen evolution reaction inhibition, carrier engineering, metal-carrier interaction, etc.) can break through the limitation of intrinsic activity of SACs. Therefore, this Review first introduces the basic principles of NRR and outlines the key factors affecting ENRR. Then a comprehensive summary is given of the progress of SACs (precious metals, non-precious metals, non-metallic) and diatomic catalysts (DACs) in ENRR. The impact of SACs microenvironmental regulation on ENRR is highlighted. Finally, further research directions for SACs in ENRR are discussed.

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