Macroporous SnO2/MoS2 inverse opal hierarchitecture for highly efficient trace NO2 gas sensing

Hang Liu; Ying Zhao; Yaoda Liu; Tingting Liang; Yahui Tian; Thangavel Sakthivel; Shengjie Peng; Soo Young Kim; Zhengfei Dai

doi:10.1039/d2cc06656d

Macroporous SnO₂/MoS₂ inverse opal hierarchitecture for highly efficient trace NO₂ gas sensing

Hang Liu
, Ying Zhao
, Yaoda Liu
, Tingting Liang
, Yahui Tian
, Thangavel Sakthivel
, Shengjie Peng
, Soo Young Kim
, Zhengfei Dai

School of Materials Science and Engineering

Research output: Contribution to journal › Article › peer-review

33 Scopus citations

Abstract

The innovation of NO₂ gas sensors is highly desirable in environmental monitoring and human safety. Herein, a macroporous SnO₂/MoS₂ inverse opal hierarchitecture has been constructed with substantial interface charge transfer, which realizes the efficient and stable detection of NO₂ with an enhanced response, fast kinetics, and high selectivity at low temperatures.

Original language	English
Pages (from-to)	2931-2934
Number of pages	4
Journal	Chemical Communications
Volume	59
Issue number	20
DOIs	https://doi.org/10.1039/d2cc06656d
State	Published - 10 Feb 2023

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abstract = "The innovation of NO2 gas sensors is highly desirable in environmental monitoring and human safety. Herein, a macroporous SnO2/MoS2 inverse opal hierarchitecture has been constructed with substantial interface charge transfer, which realizes the efficient and stable detection of NO2 with an enhanced response, fast kinetics, and high selectivity at low temperatures.",

author = "Hang Liu and Ying Zhao and Yaoda Liu and Tingting Liang and Yahui Tian and Thangavel Sakthivel and Shengjie Peng and Kim, \{Soo Young\} and Zhengfei Dai",

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AU - Liu, Hang

AU - Zhao, Ying

AU - Liu, Yaoda

AU - Liang, Tingting

AU - Tian, Yahui

AU - Sakthivel, Thangavel

AU - Peng, Shengjie

AU - Kim, Soo Young

AU - Dai, Zhengfei

PY - 2023/2/10

Y1 - 2023/2/10

N2 - The innovation of NO2 gas sensors is highly desirable in environmental monitoring and human safety. Herein, a macroporous SnO2/MoS2 inverse opal hierarchitecture has been constructed with substantial interface charge transfer, which realizes the efficient and stable detection of NO2 with an enhanced response, fast kinetics, and high selectivity at low temperatures.

AB - The innovation of NO2 gas sensors is highly desirable in environmental monitoring and human safety. Herein, a macroporous SnO2/MoS2 inverse opal hierarchitecture has been constructed with substantial interface charge transfer, which realizes the efficient and stable detection of NO2 with an enhanced response, fast kinetics, and high selectivity at low temperatures.

UR - https://www.scopus.com/pages/publications/85149042787

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DO - 10.1039/d2cc06656d

M3 - 文章

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AN - SCOPUS:85149042787

SN - 1359-7345

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EP - 2934

JO - Chemical Communications

JF - Chemical Communications

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ER -

Macroporous SnO₂/MoS₂ inverse opal hierarchitecture for highly efficient trace NO₂ gas sensing

Abstract

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