A study on the gas sensing effect on current-voltage characteristics of ZnO nanostructures

Author

Khoo, W.H. ; Sultan, S.M.

Author_Institution

Electron. & Comput. Eng. Dept., Univ. Teknol. Malaysia, Skudai, Malaysia

fYear

2014

fDate

27-29 Aug. 2014

Firstpage

221

Lastpage

224

Abstract

Current-voltage characteristics of ZnO nanostructures were studied under different gas ambient using nonequilibrium Green´s function and density functional theory, DFT technique. It was found that I-V characteristics of ZnO nanostructures depend strongly on the type of gas molecules present. The sensitivity factor of more than 200% achieved with the presence of a single molecule of NO₂ gas. Meanwhile, there were no significant changes towards CO and NH₃ gas molecules. However, CO adsorption can significantly suppress the transmission spectrum of ZnO nanostructures. Under the same applied bias voltage, the current through ZnO nanostructures decreases with increasing CO concentrations.

Keywords

Green´s function methods; II-VI semiconductors; ammonia; carbon compounds; density functional theory; gas sensors; nanosensors; nanostructured materials; nitrogen compounds; zinc compounds; CO; DFT technique; I-V characteristics; NH₃; NO₂; ZnO; bias voltage; current-voltage characteristics; density functional theory; gas molecule; gas sensing effect; nanostructure; nonequilibrium Green´s function; sensitivity factor; Adsorption; Current-voltage characteristics; Electrodes; Nanowires; Scattering; Zinc oxide; DFT; Quantum Wise; ZnO; gas sensor;

fLanguage

English

Publisher

ieee

Conference_Titel

Semiconductor Electronics (ICSE), 2014 IEEE International Conference on

Conference_Location

Kuala Lumpur

Type

conf

DOI

10.1109/SMELEC.2014.6920836

Filename

6920836