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Unraveling oxygen vacancy-driven catalytic selectivity and hot electron generation on heterointerfaces using nanostructured platform

Gyu Rac Lee, Kyoungjae Song, Doosun Hong, Juyoung An, Yujin Roh, Minyoung Kim, Dong-Hun Kim, Yeon Sik Jung, Jeong Young Park

2025Nature Communications29 citationsDOIOpen Access PDF

Abstract

Modulating the physicochemical properties of oxides is crucial to achieve efficient and desirable reactions in heterogeneous catalysis. However, their catalytic role is not clearly identified because unevenly distributed interfaces and close conjugation with metal catalysts may hinder distinguishing their contribution in complex random structures. Here, we demonstrate a model platform composed of well-aligned CeOx nanowire arrays on Pt catalysts to observe their catalytic role systematically. Independently modulating the crystallinity and oxygen vacancy concentration of oxide nanowires, while preserving heterogeneous interfaces, enables quantitative analysis of their individual effects on partial oxidation selectivity, resulting in hot electron generation during methanol oxidation reactions. CeOx treated with vacuum annealing on Pt exhibits 1.47- and 2.12-times higher selectivity to methyl formate and chemicurrent yield than CeOx without annealing on Pt. Density-functional theory calculations reveal that the promoted charge transfer from the electron-accumulated interface driven by oxygen vacancy acts as a key parameter in enhancing selectivity. Tuning the physicochemical properties of oxides is essential for achieving efficient and selective reactions in heterogeneous catalysis, yet their precise catalytic role remains unclear. Here, the authors present a model platform featuring well-aligned CeOx nanowire arrays on Pt catalysts, enabling a systematic investigation of their catalytic function.

Topics & Concepts

CatalysisSelectivityVacancy defectHot electronMaterials scienceOxygenNanotechnologyElectronNanostructureChemical physicsOptoelectronicsPhotochemistryChemical engineeringChemistryPhysicsCrystallographyEngineeringBiochemistryOrganic chemistryQuantum mechanicsCatalytic Processes in Materials ScienceElectrocatalysts for Energy ConversionElectronic and Structural Properties of Oxides