Abstract
Exploiting efficient electrocatalysts for electrochemical nitrogen reduction (NRR) is highly desired and deeply meaningful for realizing sustainable ammonia (NH3 ) production under ambient conditions. The Fe protein contains one [Fe4 S4 ] cluster and P cluster, which play an important role for transfer electron during the nitrogen fixing of nitrogenases. Based on the understanding of nitrogenase, the rising-star 2D iron thiophosphite (FePS3 ) nanomaterials may be highly active electrocatalysts toward NRR due to the ideal elemental composition. In this work, 2D FePS3 nanosheets are successfully synthesized by a facile salt-templated method. The FePS3 nanosheets show better electrocatalytic NH3 yield and faradaic efficiency (FE) than Fe2 S3 , which demonstrates that the P element indeed improves the NRR activity of Fe-S. Theoretically, Co incorporation not only effectively prompts the conductivity of FePS3 , but also enhances the catalytic activities of Fe-edge sites. Experimentally, Co-doped FePS3 (Co-FePS3 ) nanosheets exhibit a remarkable electrocatalytic performance toward NRR, such as high NH3 yield rate of 90.6 µg h-1 mgcat -1 , high FE of 3.38%, and an excellent long-term stability. Being the first theoretical and experimental report regarding FePS3 -based electrocatalyst toward NRR, this work represents an important beginning to the family of metal thiophosphite as advanced electrocatalysts toward NRR.
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