Amorphous indiumagalliumazinc oxide thin-film transistors instability and stress evaluation by Stretched-Exponential model

Amorphous indiumagalliumazinc oxide thin-film transistors instability and stress evaluation by Stretched-Exponential model

We have successfully fabricated large sized amorphous indiumagalliumazinc-oxide based active-matrix liquid-crystal displays, which uses Molybdenum/Aluminum/Titanium as source/drain electrode. In this study, an oxygen-rich etch stop layer acts as the oxygen atom supplier and converts the titanium lay...

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Veröffentlicht in:Solid-state electronics 2012-07, Vol.73, p.74-77
Hauptverfasser: Shih, Tsung-Hsiang, Fang, Shou-Wei, Lee, Jen-Yu, Lin, Guan-Yu, Chen, Yu-Hung, Hsin, Lung-Pao, Li, Hsin-Hung, Yang, Chin-Wei, Chen, Chien-Tao, Lu, Hsiung-Hsing, Cheng, Kai-Chung, Lin, Chih-Yuan, Chen, Chia-Yu, Yang, Chun-Ming, Tsai, He-Ting, Lin, Yu-Hsin
Format: Artikel
Sprache:eng
Schlagworte:
Devices
Displays
Electronics
Instability
Mathematical models
Stability
Thin films
Titanium
Titanium oxides
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Zusammenfassung:We have successfully fabricated large sized amorphous indiumagalliumazinc-oxide based active-matrix liquid-crystal displays, which uses Molybdenum/Aluminum/Titanium as source/drain electrode. In this study, an oxygen-rich etch stop layer acts as the oxygen atom supplier and converts the titanium layer into titanium oxide layer, which is found to induce instability of the device. Sample without titanium oxide has an initial threshold voltage shift is less than A-0.1 V after the repeatedly measuring over a period of two weeks. In addition, the IGZO based device demonstrated superior transfer characteristic. This paper established that the stability of the amorphous indiumagalliumazinc-oxide based active-matrix liquid-crystal display can be predicted by Stretched-Exponential model.
ISSN:0038-1101
DOI:10.1016/j.sse.2012.04.001