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Essential role of lattice oxygen in hydrogen sensing reaction

by Li, Jiayu , Gao, Ruiqin , Zhang, Lu , Si, Wenzhe , Bai, Ni , Li, Qiuju , Zou, Xiaoxin , Li, Guo-Dong , Shi, Lei , An, Wei , Zhao, Zicheng

in 639/301/1005/1009 / 639/925/357/537 / Density functional theory / Humanities and Social Sciences / Hydrogen / Mathematical analysis / Metal oxide semiconductors / Metal oxides / multidisciplinary / Oxygen / Participation / Science / Science (multidisciplinary) / Semiconductors / Sensors / Tin dioxide

2024

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Essential role of lattice oxygen in hydrogen sensing reaction

by Li, Jiayu , Gao, Ruiqin , Zhang, Lu , Si, Wenzhe , Bai, Ni , Li, Qiuju , Zou, Xiaoxin , Li, Guo-Dong , Shi, Lei , An, Wei , Zhao, Zicheng

2024

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Essential role of lattice oxygen in hydrogen sensing reaction

by Li, Jiayu , Gao, Ruiqin , Zhang, Lu , Si, Wenzhe , Bai, Ni , Li, Qiuju , Zou, Xiaoxin , Li, Guo-Dong , Shi, Lei , An, Wei , Zhao, Zicheng

2024

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Journal Article

Essential role of lattice oxygen in hydrogen sensing reaction

Li, Jiayu,

Gao, Ruiqin,

Zhang, Lu,

Si, Wenzhe,

Bai, Ni,

Li, Qiuju,

Zou, Xiaoxin,

Li, Guo-Dong,

Shi, Lei,

An, Wei,

Zhao, Zicheng

2024

Overview

Understanding the sensing mechanism of metal oxide semiconductors is imperative to the development of high-performance sensors. The traditional sensing mechanism only recognizes the effect of surface chemisorbed oxygen from the air but ignores surface lattice oxygen. Herein, using in-situ characterizations, we provide direct experimental evidence that the surface chemisorbed oxygen participated in the sensing process can come from lattice oxygen of the oxides. Further density functional theory (DFT) calculations prove that the p -band center of O serves as a state of art for regulating the participation of lattice oxygen in gas-sensing reactions. Based on our experimental data and theoretical calculations, we discuss mechanisms that are fundamentally different from the conventional mechanism and show that the easily participation of lattice oxygen is helpful for the high response value of the materials. Understanding the sensing mechanism of metal oxide semiconductors is imperative for developing high-performance sensors. Here, the participation of lattice oxygen, caused by additional Ge, boosts the hydrogen sensing ability of SnO 2 .

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

Subject

639/301/1005/1009

/ 639/925/357/537

/ Density functional theory

/ Humanities and Social Sciences

/ Hydrogen

/ Mathematical analysis

/ Metal oxide semiconductors