Effects of Oxygen Content on Operational Characteristics and Stability of High-Mobility IGTO Thin-Film Transistors during Channel Layer Deposition

Effects of Oxygen Content on Operational Characteristics and Stability of High-Mobility IGTO Thin-Film Transistors during Channel Layer Deposition

In this study, we investigated the effects of oxygen content on the transfer characteristics and stability of high-mobility indium-gallium-tin oxide (IGTO) thin-film transistors (TFTs) during channel layer deposition. The IGTO thin films were deposited through direct current sputtering at different...

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Main Authors: Hwan-Seok Jeong, Hyun-Seok Cha, Seong-Hyun Hwang, Dong-Ho Lee, Sang-Hun Song, Hyuck-In Kwon
Format: Article
Language:English
Published: MDPI AG 2021-06-01
Series:Coatings
Subjects:
IGTO TFT
oxygen percentage
operation characteristics
stabilities
oxygen interstitial
oxygen vacancy
Online Access:https://www.mdpi.com/2079-6412/11/6/698
id doaj-473994624613445692ffd00bec7a7912
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spelling doaj-473994624613445692ffd00bec7a79122021-06-30T23:50:21ZengMDPI AGCoatings2079-64122021-06-011169869810.3390/coatings11060698Effects of Oxygen Content on Operational Characteristics and Stability of High-Mobility IGTO Thin-Film Transistors during Channel Layer DepositionHwan-Seok Jeong0Hyun-Seok Cha1Seong-Hyun Hwang2Dong-Ho Lee3Sang-Hun Song4Hyuck-In Kwon5School of Electrical and Electronics Engineering, Chung-Ang University, Seoul 06972, KoreaSchool of Electrical and Electronics Engineering, Chung-Ang University, Seoul 06972, KoreaSchool of Electrical and Electronics Engineering, Chung-Ang University, Seoul 06972, KoreaSchool of Electrical and Electronics Engineering, Chung-Ang University, Seoul 06972, KoreaSchool of Electrical and Electronics Engineering, Chung-Ang University, Seoul 06972, KoreaSchool of Electrical and Electronics Engineering, Chung-Ang University, Seoul 06972, KoreaIn this study, we investigated the effects of oxygen content on the transfer characteristics and stability of high-mobility indium-gallium-tin oxide (IGTO) thin-film transistors (TFTs) during channel layer deposition. The IGTO thin films were deposited through direct current sputtering at different ambient oxygen percentages of 10%, 20%, 30%, 40%, and 50%. The experimental results indicate that the drain currents were hardly modulated by the gate-to-source voltage in the IGTO TFT prepared at 10% ambient oxygen. However, as the oxygen content increased from 20% to 50%, the transfer curves shifted to the positive direction with a decrease in field-effect mobility (μ<sub>FE</sub>). The IGTO TFTs exhibited deteriorated positive bias stress (PBS) stability as the oxygen content increased. However, the stabilities of the IGTO TFTs under negative bias illumination stress (NBIS) improved with an increase in the ambient oxygen percentage during the channel layer deposition. Furthermore, to understand the mechanism of the observed phenomena, we performed X-ray photoelectron spectroscopy (XPS) analysis of the IGTO thin films prepared at different oxygen percentages. The XPS results demonstrate that the deteriorated PBS stability and enhanced NBIS stability of the IGTO TFTs prepared at higher oxygen percentages were mainly ascribed to the larger amount of oxygen interstitials resulting from the excess oxygen and the smaller number of oxygen vacancies within the IGTO, respectively. The obtained results suggest that the oxygen percentages of 30% in the sputtering ambient is the most suitable oxygen percentage for optimizing the electrical properties (μ<sub>FE</sub> = 24.2 cm<sup>2</sup>/V·s, subthreshold swing = 0.43 V/dec, and threshold voltage = −2.2 V) and adequate PBS and NBIS stabilities of IGTO TFTs.https://www.mdpi.com/2079-6412/11/6/698IGTO TFToxygen percentageoperation characteristicsstabilitiesoxygen interstitialoxygen vacancy
collection DOAJ
language English
format Article
sources DOAJ
author Hwan-Seok Jeong
Hyun-Seok Cha
Seong-Hyun Hwang
Dong-Ho Lee
Sang-Hun Song
Hyuck-In Kwon
spellingShingle Hwan-Seok Jeong
Hyun-Seok Cha
Seong-Hyun Hwang
Dong-Ho Lee
Sang-Hun Song
Hyuck-In Kwon
Effects of Oxygen Content on Operational Characteristics and Stability of High-Mobility IGTO Thin-Film Transistors during Channel Layer Deposition
Coatings
IGTO TFT
oxygen percentage
operation characteristics
stabilities
oxygen interstitial
oxygen vacancy
author_facet Hwan-Seok Jeong
Hyun-Seok Cha
Seong-Hyun Hwang
Dong-Ho Lee
Sang-Hun Song
Hyuck-In Kwon
author_sort Hwan-Seok Jeong
title Effects of Oxygen Content on Operational Characteristics and Stability of High-Mobility IGTO Thin-Film Transistors during Channel Layer Deposition
title_short Effects of Oxygen Content on Operational Characteristics and Stability of High-Mobility IGTO Thin-Film Transistors during Channel Layer Deposition
title_full Effects of Oxygen Content on Operational Characteristics and Stability of High-Mobility IGTO Thin-Film Transistors during Channel Layer Deposition
title_fullStr Effects of Oxygen Content on Operational Characteristics and Stability of High-Mobility IGTO Thin-Film Transistors during Channel Layer Deposition
title_full_unstemmed Effects of Oxygen Content on Operational Characteristics and Stability of High-Mobility IGTO Thin-Film Transistors during Channel Layer Deposition
title_sort effects of oxygen content on operational characteristics and stability of high-mobility igto thin-film transistors during channel layer deposition
publisher MDPI AG
series Coatings
issn 2079-6412
publishDate 2021-06-01
description In this study, we investigated the effects of oxygen content on the transfer characteristics and stability of high-mobility indium-gallium-tin oxide (IGTO) thin-film transistors (TFTs) during channel layer deposition. The IGTO thin films were deposited through direct current sputtering at different ambient oxygen percentages of 10%, 20%, 30%, 40%, and 50%. The experimental results indicate that the drain currents were hardly modulated by the gate-to-source voltage in the IGTO TFT prepared at 10% ambient oxygen. However, as the oxygen content increased from 20% to 50%, the transfer curves shifted to the positive direction with a decrease in field-effect mobility (μ<sub>FE</sub>). The IGTO TFTs exhibited deteriorated positive bias stress (PBS) stability as the oxygen content increased. However, the stabilities of the IGTO TFTs under negative bias illumination stress (NBIS) improved with an increase in the ambient oxygen percentage during the channel layer deposition. Furthermore, to understand the mechanism of the observed phenomena, we performed X-ray photoelectron spectroscopy (XPS) analysis of the IGTO thin films prepared at different oxygen percentages. The XPS results demonstrate that the deteriorated PBS stability and enhanced NBIS stability of the IGTO TFTs prepared at higher oxygen percentages were mainly ascribed to the larger amount of oxygen interstitials resulting from the excess oxygen and the smaller number of oxygen vacancies within the IGTO, respectively. The obtained results suggest that the oxygen percentages of 30% in the sputtering ambient is the most suitable oxygen percentage for optimizing the electrical properties (μ<sub>FE</sub> = 24.2 cm<sup>2</sup>/V·s, subthreshold swing = 0.43 V/dec, and threshold voltage = −2.2 V) and adequate PBS and NBIS stabilities of IGTO TFTs.
topic IGTO TFT
oxygen percentage
operation characteristics
stabilities
oxygen interstitial
oxygen vacancy
url https://www.mdpi.com/2079-6412/11/6/698
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