CO gas sensing of ZnO nanostructures synthesized by an assisted microwave wet chemical route

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abstract

A simple wet chemical process assisted by microwave has been investigated for the synthesis of ZnO nanostructures for sensing applications. Characterization results have shown that microwave irradiation is able to quickly convert the reaction product zinc hydroxide into single phase crystalline ZnO. Different ZnO nanostructures (spherical-, flower- and star-like) have been prepared by adapting the experimental conditions. These ZnO nanostructures have been tested for CO gas monitoring by depositing them as thick films on an interdigitated alumina substrate and evaluating the surface resistance of the deposited layer as a function of operating temperature and CO concentrations. The gas sensitivity tests have demonstrated that the ZnO nanostructures, especially flower-like morphology, exhibit high sensitivity to CO proving their applicability in gas sensors. The role of the nanostructure on the sensing properties of ZnO is also discussed. (C) 2009 Elsevier B.V. All rights reserved.

keywords

METAL-OXIDE NANOPARTICLES; FILM SENSOR; SEMICONDUCTOR; NANOCRYSTALS; FABRICATION; MORPHOLOGY; NANOROD; SHAPE; SIZE

subject category

Chemistry; Electrochemistry; Instruments & Instrumentation

authors

Krishnakumar, T; Jayaprakash, R; Pinna, N; Donato, N; Bonavita, A; Micali, G; Neri, G

our authors

foto Nicola Pinna

Nicola Pinna

Researcher

Groups

acknowledgements

This work was partially supported by the WCU (World Class University) program through the Korea Science and Engineering Foundation funded by the Ministry of Education, Science and Technology (400-2008-0230).

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Publication Details

type
Journal Article
year
2009
journal
SENSORS AND ACTUATORS B-CHEMICAL
volume
143
publisher
ELSEVIER SCIENCE SA
issn
0925-4005
issue
1
digital object identifier
10.1016/j.snb.2009.09.039
web of science article identifier
WOS:000272376800031

Journal Metrics (JCR 2019)

Journal Impact Factor
7.1
Journal Impact Factor (5 yrs)
6.535
category normalized journal percentile
93.541

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