Theoretical study of Cu-IIIA binary alloy catalysts for electrochemical nitrate reduction to ammonia

Article

Fang, Qingchao, Wijethunge, Dimuthu, Han, Yun, Nasir, Md Tarikal, Kang, Xuxin, Yin, Hanqing and Du, Aijun. 2025. "Theoretical study of Cu-IIIA binary alloy catalysts for electrochemical nitrate reduction to ammonia." Physical Chemistry Chemical Physics. 27 (44), pp. 23905-23913. https://doi.org/10.1039/D5CP02488A
Article Title

Theoretical study of Cu-IIIA binary alloy catalysts for electrochemical nitrate reduction to ammonia

ERA Journal ID1219
Article CategoryArticle
AuthorsFang, Qingchao, Wijethunge, Dimuthu, Han, Yun, Nasir, Md Tarikal, Kang, Xuxin, Yin, Hanqing and Du, Aijun
Journal TitlePhysical Chemistry Chemical Physics
Journal Citation27 (44), pp. 23905-23913
Number of Pages9
Year2025
PublisherThe Royal Society of Chemistry
Place of PublicationUnited Kingdom
ISSN1463-9076
1463-9084
Digital Object Identifier (DOI)https://doi.org/10.1039/D5CP02488A
Web Address (URL)https://pubs.rsc.org/en/content/articlelanding/2025/cp/d5cp02488a/
Abstract

Electrocatalytic reduction of nitrate to ammonia (NO3RR) has emerged as a promising approach for wastewater purification and NH3 electrosynthesis. Unfortunately, the catalytic performance of electrocatalysts is hindered by poor activity and selectivity for practical applications. Herein, three types of Cu-based alloys, composed of post-transition metals (Al, Ga and In), were investigated for the NO3RR process. Using density functional theory (DFT) calculations, the reaction pathways for three catalysts along with Gibbs free energy evolution were identified, where enhanced activity was observed in the sequence of Al, Ga and In with limiting potentials of −0.77 V, −0.21 V and −0.18 V, respectively. The favourable nitrate reduction is due to enhanced electronic distribution and conductivity. The relationship between nitrate adsorption and limiting potential demonstrated that moderate nitrate adsorption is associated with higher activity. In addition, the proton adsorption and by-product formation (N2O) on Ga2Cu(100) was found to be difficult, and Ga2Cu is identified as a highly efficient alloy catalyst for the e-NO3RR. Cu-based bimetallic systems with excellent NO3RR performance were proposed as promising candidates, thus providing insights into the rational design of novel catalytic materials through the p-block alloying strategy.

Contains Sensitive ContentDoes not contain sensitive content
ANZSRC Field of Research 2020340701. Computational chemistry
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Byline AffiliationsQueensland University of Technology
School of Science, Engineering and Digital Technologies - Engineering
Griffith University
Ningbo University, China
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