Litcius/Paper detail

Size-effect induced controllable Cu0-Cu+ sites for ampere-level nitrate electroreduction coupled with biomass upgrading

Yuxuan Lu, Feng Yue, Tianyang Liu, Yucheng Huang, Feng Fu, Yu Jing, Hengquan Yang, Chunming Yang

2025Nature Communications82 citationsDOIOpen Access PDF

Abstract

The synergistic Cu0-Cu+ sites is regarded as the active species towards NH3 synthesis from the nitrate electrochemical reduction reaction (NO3-RR) process. However, the mechanistic understanding and the roles of Cu0 and Cu+ remain exclusive. The big obstacle is that it is challenging to effectively regulate the interfacial motifs of Cu0-Cu+ sites. In this paper, we describe the tunable construction of Cu0-Cu+ interfacial structure by modulating the size-effect of Cu2O nanocube electrocatalysts to NO3-RR performance. We elucidate the formation mechanism of Cu0-Cu+ motifs by correlating the macroscopic particle size with the microscopic coordinated structure properties, and identify the synergistic effect of Cu0-Cu+ motifs on NO3-RR. Based on the rational design of Cu0-Cu+ interfacial electrocatalyst, we develop an efficient paired-electrolysis system to simultaneously achieve the efficient production of NH3 and 2,5-furandicarboxylic acid at an industrially relevant current densities (2 A cm−2), while maintaining high Faradaic efficiencies, high yield rates, and long-term operational stability in a 100 cm2 electrolyzers, indicating promising practical applications. It is challenging to regulate the interfacial motifs of Cu0-Cu+ sites to understand roles of Cu0 and Cu+ for nitrate electrochemical reduction reaction. Here, the authors report a tunable construction of Cu0-Cu+ interfacial structure by modulating the size-effect of Cu2O electrocatalysts.

Topics & Concepts

Biomass (ecology)NitrateChemistryMaterials scienceBiologyAgronomyOrganic chemistryAmmonia Synthesis and Nitrogen ReductionNanomaterials for catalytic reactionsCaching and Content Delivery
Size-effect induced controllable Cu0-Cu+ sites for ampere-level nitrate electroreduction coupled with biomass upgrading | Litcius