A review on electrical and gas-sensing properties of reduced graphene oxide-metal oxide nanocomposites

A review on electrical and gas-sensing properties of reduced graphene oxide-metal oxide nanocomposites

From the past decade, there is a demand for the development of highly sensitive and selective, operating at low temperature, and stable gas-sensing materials used to monitor hazardous gases. The discovery of graphene has led to the implication of the same as gas sensor as it possesses large value of...

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Veröffentlicht in:Biomass conversion and biorefinery 2024-06, Vol.14 (12), p.12625-12635
Hauptverfasser: Kiranakumar. H. V, Thejas R, Naveen C S, Khan, M. Ijaz, Prasanna G D, Reddy, Sathish, Oreijah, Mowffaq, Guedri, Kamel, Bafakeeh, Omar T., Jameel, Mohammed
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Sprache:eng
Schlagworte:
Biotechnology
Electron mobility
Energy
Gas sensors
Graphene
Hazardous materials
Low temperature
Metal oxides
Nanocomposites
Renewable and Green Energy
Review Article
Room temperature
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container_end_page 12635
container_issue 12
container_start_page 12625
container_title Biomass conversion and biorefinery
container_volume 14
creator Kiranakumar. H. V
Thejas R
Naveen C S
Khan, M. Ijaz
Prasanna G D
Reddy, Sathish
Oreijah, Mowffaq
Guedri, Kamel
Bafakeeh, Omar T.
Jameel, Mohammed
description From the past decade, there is a demand for the development of highly sensitive and selective, operating at low temperature, and stable gas-sensing materials used to monitor hazardous gases. The discovery of graphene has led to the implication of the same as gas sensor as it possesses large value of surface to volume ratio and high value of electron mobility at room temperature. Few researchers have fabricated reduced graphene oxide–metal oxide composite gas sensors exhibiting good electrical and gas-sensing properties. But still, it is a very less explored area. This article provides an overview of electrical and gas-sensing properties of reduced graphene oxide–metal oxide nanocomposites with improved sensitivity, selectivity, stability, and other sensing performances. This review is mainly focuses on reduced graphene oxide–metal oxide nanocomposite-based gas sensors which are cost-effective and sensitive to the various gases/vapors.
doi_str_mv 10.1007/s13399-022-03258-7
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subjects Biotechnology
Electron mobility
Energy
Gas sensors
Graphene
Hazardous materials
Low temperature
Metal oxides
Nanocomposites
Renewable and Green Energy
Review Article
Room temperature
title A review on electrical and gas-sensing properties of reduced graphene oxide-metal oxide nanocomposites
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