Effects of Ambient Atmosphere on Electrical Characteristics of Al2O3 Passivated InGaZnO Thin Film Transistors during Positive-Bias-Temperature-Stress Operation

Authors :: Chia-Hsiang Chen
Min-Chen Chen
Chun-Hao Tu
Jiun Jye Chang
Sheng-Yao Huang
Wei-Lung Liau
Ting-Chang Chang
Ming-Chin Hung
Chih-Tsung Tsai
Shih-Ching Chen
Source :: Electrochemical and Solid-State Letters. 14:H177
Publication Year :: 2011
Publisher :: The Electrochemical Society, 2011.
Abstract: This study investigates the effects of ambient atmosphere on electrical characteristics of Al2O3 passivated InGaZnO thin film transistors during positive bias temperature stress. Under H2O vapor environment, the Al2O3 passivated device exhibited stable electrical behaviors (ΔV th < 0.5 V), while the unpassivated device showed an apparent hump effect in the transfer curves under bias stress. The hump phenomenon was attributed to the absorption of the H2O molecule which can serve as a donor to develop a conductive back channel. The experiment results suggest that Al2O3 is an effective passivation layer to suppress water vapor absorption in the InGaZnO back channel.

Subjects :: Materials science
Passivation
business.industry
General Chemical Engineering
Temperature stress
Atmosphere
Thin-film transistor
Electrochemistry
Optoelectronics
General Materials Science
Positive bias
Electrical and Electronic Engineering
Physical and Theoretical Chemistry
Absorption (electromagnetic radiation)
business
Electrical conductor
Layer (electronics)

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