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Strategic Design of Ethanol Oxidation Catalysts: From Active Metal Selection to Mechanistic Insights and Performance Engineering

Di Liu, Qingqing Lv, Dahai Zheng, Chenhui Zhou, Shuchang Chen, Kaiyang Zhang, Suqin Han, Hui‐Zi Huang, Yufeng Zhang, Li‐Wei Chen

2025Nanomaterials7 citationsDOIOpen Access PDF

Abstract

The ethanol oxidation reaction (EOR) is a key process for direct ethanol fuel cells (DEFCs), offering a high-energy-density and carbon-neutral pathway for sustainable energy conversion. However, the practical implementation of DEFCs is significantly hindered by the EOR due to its sluggish kinetics, complex multi-electron transfer pathways, and severe catalyst poisoning by carbonaceous intermediates. This review provides a comprehensive and mechanistically grounded overview of recent advances in EOR electrocatalysts, with a particular emphasis on the structure-activity relationships of noble metals (Pt, Pd, Rh, Au) and non-noble metals. The effects of catalyst composition, surface structure, and electronic configuration on C-C bond cleavage efficiency, product selectivity (C1 vs. C2), and CO tolerance are critically evaluated. Special attention is given to the mechanistic distinctions among different metal systems, highlighting how these factors influence reaction pathways and catalytic behavior. Key performance-enhancing strategies-including alloying, nanostructuring, surface defect engineering, and support interactions-are systematically discussed, with mechanistic insights supported by in situ characterization and theoretical modeling. Finally, this review identifies major challenges and emerging opportunities, outlining rational design principles for next-generation EOR catalysts that integrate high activity, durability, and scalability for real-world DEFC applications.

Topics & Concepts

CatalysisRational designNanotechnologyBiochemical engineeringFuel cellsPrecious metalScalabilityChemistryDesign elements and principlesSustainable energyBond cleavageSelection (genetic algorithm)Process (computing)Materials scienceReactor designSurface engineeringComputer scienceHeterogeneous catalysisMetalEnergy storageMetal-organic frameworkNoble metalSelectivityElectrocatalysts for Energy ConversionCatalytic Processes in Materials ScienceFuel Cells and Related Materials