DocumentCode
49804
Title
ZnO-Based Ultraviolet Photodetectors With Novel Nanosheet Structures
Author
Sheng-Joue Young ; Yi-Hsing Liu ; Chih-Hung Hsiao ; Shoou-Jinn Chang ; Bo-Chin Wang ; Tsung-Hsien Kao ; Kai-Shiang Tsai ; San-Lein Wu
Author_Institution
Dept. of Electron. Eng., Nat. Formosa Univ., Yunlin, Taiwan
Volume
13
Issue
2
fYear
2014
fDate
Mar-14
Firstpage
238
Lastpage
244
Abstract
This study presents the fabrication of ZnO nanosheets on a glass substrate using a room-temperature (approximately 25 °C) solution method. The average length and diameter of the ZnO nanosheets were 1.2 μm and approximately 5 nm, respectively. The ultraviolet (UV)-to-visible rejection ratio of the sample is approximately 42 when biased at 1 V, and the fabricated UV photodetector is visible-blind with a sharp cutoff at 370 nm. The transient time constants measured during the rise time and fall time were τr = 5.37 s and 6.02 s, respectively. The low-frequency noise spectra obtained from the UV photodetector were caused purely by the 1/ f noise. The noise-equivalent power and normalized detectivity ( D*) of the ZnO nanosheet photodetector were 6.12 × 10 -9W and 2.17 × 10 9 cm·Hz 0.5 W -1, respectively.
Keywords
1/f noise; II-VI semiconductors; nanostructured materials; photodetectors; ultraviolet detectors; wide band gap semiconductors; zinc compounds; 1/f noise; SiO2; ZnO; fall time; glass substrate; low-frequency noise spectra; nanosheet structures; noise-equivalent power; normalized detectivity; rise time; room-temperature solution method; size 1.2 mum; temperature 293 K to 298 K; transient time constants; ultraviolet photodetectors; ultraviolet-to-visible rejection ratio; visible-blind UV photodetector; voltage 1 V; wavelength 370 nm; Glass; Lighting; Nanostructures; Noise; Photodetectors; Substrates; Zinc oxide; Detectivity; ZnO nanosheet; noise; photodetector;
fLanguage
English
Journal_Title
Nanotechnology, IEEE Transactions on
Publisher
ieee
ISSN
1536-125X
Type
jour
DOI
10.1109/TNANO.2014.2298335
Filename
6704287
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