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Lattice Hydrogen Involved Electrocatalytic Nitrate Reduction to Hydroxylamine

Chengying Guo, Minghao Guo, Yuhan Zhang, Shuhe Han, Yifu Yu

2025Journal of the American Chemical Society59 citationsDOI

Abstract

Electrocatalytic nitrate reduction to hydroxylamine (ENRH) provides a sustainable strategy for NH 2 OH synthesis under ambient conditions. At present, active hydrogen (*H) derived from water dissociation has been widely used as a H-source for nitrate hydrogenation, bringing a big challenge for ENRH. On the one hand, insufficient *H would lead to the accumulation of nitrite. On the other hand, sufficient *H with high reduction ability would induce over-hydrogenation of hydroxylamine to ammonia. To overcome this challenge, herein, we propose to utilize lattice hydrogen (H lat ) with an appropriate reduction ability as the H-source for ENRH. We design and construct a Cu-MnO 2 H x electrocatalyst, in which the Cu-triggered Jahn–Teller distortion of [MnO 6 ] octahedron significantly increases the number of H lat . The Faradaic efficiency and yield of NH 2 OH are as high as 91.1% and 396.6 mmol g cat. –1 h –1 over Cu-MnO 2 H x, outperforming most of the reported catalysts. The combined results of isotopic tracking experiments and theoretical calculations prove the enrichment and buffer functions of H lat, which can provide an abundant H-source for nitrate’s selective reduction to hydroxylamine.

Topics & Concepts

ChemistryHydroxylamineNitrateReduction (mathematics)HydrogenInorganic chemistryLattice (music)Organic chemistryGeometryMathematicsAcousticsPhysicsAmmonia Synthesis and Nitrogen ReductionHydrogen Storage and MaterialsElectrocatalysts for Energy Conversion
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