What does this research mean for the field?

Strong metal-support interaction (SMSI) is an effective strategy to enhance the catalytic activity and selectivity of supported metal catalysts for electrocatalytic nitrate reduction to ammonia (NRA) by modifying the metal-support interface, lowering the NRA reaction energy barrier, and suppressing the competing hydrogen evolution reaction. Novelty: ClaimNovelty.SYNTHESIS. Consensus alignment: ConsensusAlignment.NEUTRAL.

What question did this study set out to answer?

The aim is to explore how metal-support interactions enhance the efficiency of nitrate reduction to ammonia.

April 18, 2026

Application of metal-support interaction for electrocatalytic nitrate reduc-tion to ammonia production

Key Points

The aim is to explore how metal-support interactions enhance the efficiency of nitrate reduction to ammonia.
Review of existing research on nitrate reduction pathways.
Analysis of the impact of strong metal-support interactions (SMSI) on catalyst performance.
Examination of SMSI modification techniques and their effects in nitrate reduction reactions.
Strong metal-support interactions enhance catalytic performance for ammonia production.
Various SMSI types contribute differently to catalyst activity and selectivity.
The review outlines theoretical calculations and characterization techniques that support SMSI benefits.

Abstract

硝酸盐（no3－）作为环境中广泛存在的污染物对于人体健康和自然界物质循环造成了极大威胁，电催化硝酸盐还原产氨（nra）作为一种同时实现污染治理和资源再利用的环保方案在近几年的no3－污染治理中得到了广泛的应用，但是作为复杂的化学反应过程，nra的不同反应途径和不同反应条件会产生众多副产物，与此同时在反应各阶段还面临着析氢反应（her）对nra的抑制，因此需要设计能降低nra反应能垒和抑制her的高性能催化剂，提高nra反应对nh3的催化活性和选择性；负载型金属催化剂上的强金属-载体相互作用（smsi）通过对金属载体界面结构的改造（产生载体对金属的包封）在特定条件下赋予了催化剂优越的催化性能和反应特性，因此smsi与nra结合促进产nh3成为了一种行之有效的催化剂改性方案；本文在整合nra反应路径相关研究的基础上，综述了不同类型的smsi对催化剂性能的影响及其作用机制，并对产生smsi的改性方法进行了细致分析，结合smsi在nra中的应用总结了smsi对nra性能提升的主要方式，并利用smsi在nra中的表征技术和理论计算佐证smsi的优越性能，最后总结和展望了smsi在nra领域的挑战和前景，希望为合理设计具有smsi的负载型金属催化剂并大规模投身nra产业做出了指导与参考。

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Yucan Luo

Hunan University

Cui Lai

Xi Hu

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Chinese Science Bulletin (Chinese Version)

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Application of metal-support interaction for electrocatalytic nitrate reduc-tion to ammonia production

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