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(Invited) atomic layer deposited oxide semiconductor enabling high mobility and low driving voltage in TFTs

Authors
Cho, Min-HoeSeul, Hyeon-JooJeong, Jae-Kyeong
Issue Date
Aug-2021
Keywords
Bilayer channel; Heterojunction channel; High mobility; High-k dielectric; IGZO; Low driving voltage; Thin-film transistor
Citation
Digest of Technical Papers - SID International Symposium, v.52, no.S2, pp 206 - 209
Pages
4
Indexed
SCOPUS
Journal Title
Digest of Technical Papers - SID International Symposium
Volume
52
Number
S2
Start Page
206
End Page
209
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/141222
DOI
10.1002/sdtp.15067
ISSN
0097-966X
2168-0159
Abstract
The amorphous indium-gallium-zinc oxide (a-IGZO) thin-film transistors (TFTs) have become the standard backplane technology for large-area active-matrix organic light-emitting diode (AMOLED) TV. The high-end mobile OLED demands the high mobility of ~100 cm2/Vs. So far, the various approaches to improve the mobility of electron carriers in IGZO TFTs have been researched, including the optimization of cation composition, stacked channel structure, and the lattice ordering-induced crystallization. In this paper, we presented our recent efforts toward the high-performance and good reliability for IGZO TFTs, which is based on the atomic layer deposition process. First, the merits of the ALD-derived IGZO compared to sputtered IGZO in terms of the electrical performance of IGZO TFT were investigated. Second, the quantum confinement effect in the IGZO heterojunction channel stacks was exploited, leading to 2DEG-like high mobility. Finally, the IGZO TFTs with the high-mobility and low-driving-voltage was realized through the bilayer IGZO channel and HfO2-based gate dielectric stack.
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