Pt/ZnO/SiC thin film for hydrogen gas sensing

Yu, Jerry; Shafiei, Mahnaz; Ling, Christopher; Wlodarski, Wojciech; Kalantar Zadeh, Kourosh

Pt/ZnO/SiC thin film for hydrogen gas sensing

conference contribution

posted on 2024-10-31, 09:00 authored by Jerry Yu, Mahnaz Shafiei, Christopher Ling, Wojciech WlodarskiWojciech Wlodarski, Kourosh Kalantar ZadehKourosh Kalantar Zadeh

Zinc oxide (ZnO) is one of the most promising electronic and photonic materials to date. In this work, we present an enhanced ZnO Schottky gas sensor deposited on SiC substrates in comparison to those reported previously in literature. The performance of ZnO/SiC based Schottky thin film gas sensors produced a forward lateral voltage shift of 12.99mV and 111.87mV in response to concentrations of hydrogen gas at 0.06% and 1% in air at optimum temperature of 330 ºC. The maximum change in barrier height was calculated as 37.9 meV for 1% H2 sensing operation at the optimum temperature.

History

Number

72680L

Start page

1

End page

10

Total pages

10

Outlet

Proceedings of SPIE 7268 - Smart Structures, Devices and Systems IV

Editors

S. Al-Sawari et. al.

Name of conference

SPIE: Smart Structures, Devices and Systems

Publisher

SPIE

Place published

Australia

Start date

2008-12-09

End date

2008-12-12

Language

English

Copyright

Former Identifier

2006009520

Esploro creation date

2020-06-22

Fedora creation date

2009-11-24

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Keywords

Schottky ZnO gas sensing hydrogen thin film

Pt/ZnO/SiC thin film for hydrogen gas sensing

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Start page

End page

Total pages

Outlet

Editors

Name of conference

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Start date

End date

Language

Copyright

Former Identifier

Esploro creation date

Fedora creation date

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