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Imparting Metal Oxides with High Sensitivity Toward Light‐Activated NO<sub>2</sub> Detection Via Tailored Interfacial Chemistry

Seyeon Park, SungHyun Jeon, Honghui Kim, J Philips, DongHwan Oh, Jaewan Ahn, Minhyun Kim, Chungseong Park, Seungbum Hong, Jihan Kim, WooChul Jung, Il‐Doo Kim

2023Advanced Functional Materials28 citationsDOI

Abstract

Abstract Activation of metal oxides by light is a robust yet facile approach to manipulating their surface chemistry for favorable reactions with target molecules in heterogeneous catalysis and gas sensors. However, a limited understanding of interface chemistry and the involved mechanism impedes the development of a rational design of oxide interfaces for light‐activated gas sensing. Herein, the TiO x ‐assisted photosensitization of In 2 O 3 toward NO 2 sensing is investigated as a case study to elucidate the detailed mechanism of light‐activated surface chemistry at the metal/gas interface. The resultant heterogeneous oxides exhibit outstanding NO 2 sensing performance under light irradiation thanks to abundant photoexcited electrons and holes that serve as adsorption and desorption sites, respectively, to accelerate both surface reactions. Furthermore, the facile transfer of electrons and holes across the TiO x ‐In 2 O 3 interface contributes to improving the reversibility of sensing kinetics. Through this study, the mechanistic understanding is established of how the surface chemistry of metal oxide surfaces can be tuned by light activation providing an effective route to the design fabrication of high‐performance gas sensors.

Topics & Concepts

OxideMaterials scienceAdsorptionCatalysisNanotechnologyMetalDesorptionElectron transferKineticsRational designMoleculePhotochemistryPhysical chemistryChemistryOrganic chemistryQuantum mechanicsPhysicsMetallurgyGas Sensing Nanomaterials and SensorsAdvanced Photocatalysis TechniquesElectronic and Structural Properties of Oxides
Imparting Metal Oxides with High Sensitivity Toward Light‐Activated NO<sub>2</sub> Detection Via Tailored Interfacial Chemistry | Litcius