Linghu Meng scite author profile

Excessive discharge of nitrate pollutants has caused an imbalance in the nitrogen cycle, which has threatened human health and ecosystems. Clean electrocatalytic nitrate reduction technology can convert nitrate into high value-added ammonia to control water pollution, truly realizing “turning waste into treasure”. This review highlights the latest mechanisms proposed by combining in situ characterization and discusses the various intermediates produced during the reaction process and the key steps that determine the reaction rate. Meanwhile, four common catalyst synthesis strategies are systematically summarized. These strategies have exhibited preeminent results in terms of conductivity and active sites and inhibition of side effects. Finally, the challenges and difficulty of electrocatalytic nitrate reduction into ammonia (NRA) in the process of development and the main development direction in the future are discussed. The engineering strategies for increasing the electrocatalytic stability and performance are also discussed. This review aims to provide guidance for efficient electrocatalytic nitrate conversion and promotes the advancement of sustainable nitrogen chemistry.

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Cationic vacancy engineering of p-TiO₂ for enhanced photocatalytic nitrogen fixation

Ding

et al. 2023

Nanoscale

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MOFs-derived plum-blossom-like junction In/In2O3@C as an efficient nitrogen fixation photocatalyst: Insight into the active site of the In3+ around oxygen vacancy

Tan

et al. 2023

Journal of Colloid and Interface Science

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Enhancing photocatalytic nitrogen fixation performance of Co-doped bismuth molybdate through band engineering tuning

Liu

Li²,

Su³

et al. 2023

Applied Surface Science

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Construction of ZnCdS@CAU-17 heterostructures containing intermediate mediator Bi2S3 as a highly efficient photocatalyst for nitrogen reduction reaction

Meng

Ding

et al. 2023

Journal of Alloys and Compounds

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Linghu Meng

Recent Advances in Electrocatalytic Nitrate Reduction to Ammonia: Mechanism Insight and Catalyst Design

Cationic vacancy engineering of p-TiO₂ for enhanced photocatalytic nitrogen fixation

MOFs-derived plum-blossom-like junction In/In2O3@C as an efficient nitrogen fixation photocatalyst: Insight into the active site of the In3+ around oxygen vacancy

Enhancing photocatalytic nitrogen fixation performance of Co-doped bismuth molybdate through band engineering tuning

Construction of ZnCdS@CAU-17 heterostructures containing intermediate mediator Bi2S3 as a highly efficient photocatalyst for nitrogen reduction reaction

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Linghu Meng

Recent Advances in Electrocatalytic Nitrate Reduction to Ammonia: Mechanism Insight and Catalyst Design

Cationic vacancy engineering of p-TiO2 for enhanced photocatalytic nitrogen fixation

MOFs-derived plum-blossom-like junction In/In2O3@C as an efficient nitrogen fixation photocatalyst: Insight into the active site of the In3+ around oxygen vacancy

Enhancing photocatalytic nitrogen fixation performance of Co-doped bismuth molybdate through band engineering tuning

Construction of ZnCdS@CAU-17 heterostructures containing intermediate mediator Bi2S3 as a highly efficient photocatalyst for nitrogen reduction reaction

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Cationic vacancy engineering of p-TiO₂ for enhanced photocatalytic nitrogen fixation