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Spillover‐Mediated H* Redistribution Promotes Electrocatalytic Acetonitrile Hydrogenation in PEM Reactors

Shan Huang, Bingying Han, Ye Liu, Zijie Cheng, Huibin Ge, Lianbing Zhang, Riguang Zhang, Baojun Wang, Jie Kong, Jiayuan Li

2025Angewandte Chemie International Edition14 citationsDOI

Abstract

Abstract Electrocatalytic acetonitrile hydrogenation (EAH) provides a sustainable route for ethylamine synthesis, yet suffers from low productivity, competitive hydrogen evolution reaction (HER), and high energy consumption due to suboptimal catalyst and reactor design. To overcome these challenges, we describe a palladium‐copper hybrid catalyst that employs spillover‐mediated active hydrogen (H*) redistribution mechanism. Hydrogen spillover from palladium with high H* coverage to copper with low H* coverage creates H* redistribution: reduced H* coverage of Pd mitigates HER while maintaining efficient EAH, and increased H* availability of Cu promotes EAH without activating stagnant HER. Integration of these catalysts into both cathode and anode of a proton exchange membrane electrolyzer enabled efficient ethylamine electrosynthesis and formic acid electrooxidation over 100 h, achieving exceptional ethylamine productivity (6160.0 ± 119.1 mmol g cat −1 h −1 ) and Faradaic efficiency (94.2 ± 1.6%) at record‐low energy consumption (3.55 kWh kg ethylamine −1 ). This work marks a critical advancement toward sustainable ethylamine electrosynthesis.

Topics & Concepts

EthylamineCatalysisElectrolysisChemistryAnodeHydrogen productionElectrosynthesisInorganic chemistryElectrochemistryMaterials scienceChemical engineeringOrganic chemistryElectrodeElectrolyteEngineeringPhysical chemistryElectrocatalysts for Energy ConversionAmmonia Synthesis and Nitrogen ReductionAdvanced Photocatalysis Techniques