Litcius/Paper detail

Boosting Nitrate Reduction through Ru‐CO <sub>3</sub> <sup>2−</sup> Microenvironment Modulated Hydrogen‐Bond Networks

Mengxue Yang, Wenzhe Wang, Zhiyong Zhao, Shuai Yue, Tianyu Zhi, Fu Tian, Kewang Liu, Pengfei Wang, Sihui Zhan

2025Angewandte Chemie International Edition7 citationsDOI

Abstract

Abstract Electrocatalytic reduction of nitrate (NO 3 − )‐rich wastewater to ammonia (NH 3 ) offers an attractive and sustainable strategy for green and cost‐effective NH 3 synthesis. However, slow proton transfer kinetics remains a persistent challenge, limiting both reaction activity and selectivity. We develop a strategy of leveraging anion (CO 3 2− )‐modulated microenvironments around single‐atom (ruthenium, Ru) sites to accelerate proton transfer leveraging. By modulating the electrolyte composition, we constructed a Ru‐CO 3 2− microenvironment that facilitated a highly interconnected hydrogen‐bond (H‐bond) network and promoted proton transfer kinetics. This microenvironment significantly enhanced electrocatalytic performance, enabling an NH 3 production of 76.36 mg·h −1 ·mg cat. −1 with a Faradaic efficiency (FE) exceeding 90% for NO 3 RR in an integrated electrocatalytic system. This approach offers a cost‐effective and practical strategy for converting NO 3 − ‐rich wastewater into valuable NH 3 , while providing mechanistic insights into proton transfer and interfacial regulation.

Topics & Concepts

ChemistryNitrateProtonBoosting (machine learning)ElectrolyteKineticsFaraday efficiencyAmmoniaLimitingWastewaterAmmonia productionReduction (mathematics)ElectrochemistryElectrocatalystCatalysisNanotechnologyBiochemical engineeringIonInorganic chemistrySelectivityAmmonia Synthesis and Nitrogen ReductionCO2 Reduction Techniques and CatalystsMetalloenzymes and iron-sulfur proteins