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Covalent Organic Frameworks on Cu <sub>2</sub> O Nanocubes as Rapid Proton/Electron Transfer Gates for Efficient NH <sub>3</sub> Electrosynthesis from Nitrate in Neutral Media

Warisha Tahir, Yuqin Wei, Mao Wang, Islam E. Khalil, Prasenjit Das, Ting Wang, C.H. Cheng, Shuang Li, Arne Thomas

2025Journal of the American Chemical Society10 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Nitrate electroreduction to ammonia offers a dual opportunity: decarbonizing NH 3 production by replacing the energy-intensive Haber-Bosch process and remediating nitrate-contaminated wastewater. While copper-based catalysts show promise for this transformation, their practical implementation is hindered by sluggish kinetics and competing hydrogen evolution pathways. Here, we report the integration of covalent organic framework (COF) layers onto a Cu 2 O surface, which enables rapid proton/electron transfer and substrate activation for efficient NH 3 electrosynthesis from NO 3 – in neutral media. By growing pyridine- or imidazole-decorated COF shells with varying thickness on Cu 2 O nanocubes, we achieve precise control over the microenvironment of the electrocatalyst surface. The pyridine-COF on Cu 2 O demonstrates 84% Faradaic efficiency for NH 3 production with 92.11% selectivity and a record yield of 2.3 mg h –1 cm –2 . In situ spectroscopic investigations reveal that the COF shells have multifunctional roles: they selectively transport reactants, stabilize key intermediates through hydrogen bonding interactions, and steer the reaction along an associative pathway that bypasses common side reactions. Our findings establish COF-gated core–shell architectures as a generalizable platform for designing efficient, selective, and durable electrocatalysts for broad applications.

Topics & Concepts

ElectrosynthesisChemistryElectrocatalystCatalysisAmmonia productionFaraday efficiencyYield (engineering)SelectivityCovalent bondSubstrate (aquarium)AmmoniaNitrateChemical engineeringCovalent organic frameworkCombinatorial chemistryMetal-organic frameworkPolyanilineHydrogenNanotechnologyHydrogen productionInorganic chemistryReaction intermediatePhotochemistryHybrid materialHeterogeneous catalysisHydrogen bondReversible hydrogen electrodeElectrochemistryReactive intermediateKineticsReaction mechanismAmmonia Synthesis and Nitrogen ReductionCO2 Reduction Techniques and CatalystsAdvanced Photocatalysis Techniques