Open AccessImproving electrical performance and bias stability of HfInZnO-TFT with optimizing the channel thickness
Author(s) -
Jun Li,
Xingwei Ding,
Jianhua Zhang,
Hao Zhang,
Xue-Yin Jiang,
Zhilin Zhang
Publication year - 2013
Publication title -
aip advances
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.421
H-Index - 58
ISSN - 2158-3226
DOI - 10.1063/1.4828674
Subject(s) - thin film transistor , materials science , threshold voltage , optoelectronics , atomic layer deposition , subthreshold swing , swing , transistor , active layer , saturation (graph theory) , subthreshold conduction , leakage (economics) , insulator (electricity) , layer (electronics) , voltage , electrical engineering , nanotechnology , physics , mathematics , combinatorics , acoustics , economics , macroeconomics , engineering
RF magnetron sputtered HfInZnO film and atomic layer deposition (ALD) Al2O3 film were employed for thin film transistors (TFTs) as channel layer and gate insulator, respectively. To achieve HfInZnO-TFT with high performance and good bias stability, the thickness of HfInZnO active layer was optimized. The performance of HfInZnO-TFTs was found to be thickness dependent. As the HfInZnO active layer got thicker, the leakage current greatly increased from 1.73 × 10−12 to 2.54 × 10−8 A, the threshold voltage decreased from 7.4 to −4.7 V, while the subthreshold swing varied from 0.41 to 1.07 V/decade. Overall, the HfInZnO film showed superior performance, such as saturation mobility of 6.4 cm2/V s, threshold voltage of 4.2 V, subthreshold swing of 0.43 V/decade, on/off current ratio of 3 × 107 and Vth shift of 3.6 V under VGS = 10 V for 7200 s. The results demonstrate the possibility of fabricating TFTs using HfInZnO film as active layer and using ALD Al2O3 as gate insulator
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