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Highly Robust Atomic Layer Deposition-Indium Gallium Zinc Oxide Thin-Film Transistors with Hybrid Gate Insulator Fabricated via Two-Step Atomic Layer Process for High-Density Integrated All-Oxide Vertical Complementary Metal-Oxide-Semiconductor Applicationsopen access

Authors
김동규Choi, Su-Hwan이원범정경민Koh, JihyunLee, SeungheeKuh, BongjinPark, Jin-Seong
Issue Date
Feb-2024
Publisher
John Wiley and Sons Inc
Keywords
atomic layer deposition; hydrogen resistivity; oxide semiconductors; stability; thin-film transistors; vertical complementary metal-oxide-semiconductor inverter
Citation
Small Structures, v.5, no.2, pp 1 - 11
Pages
11
Indexed
SCIE
SCOPUS
Journal Title
Small Structures
Volume
5
Number
2
Start Page
1
End Page
11
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/197094
DOI
10.1002/sstr.202300375
ISSN
2688-4062
2688-4062
Abstract
Highly reliable atomic layer deposition (ALD)-derived In-Ga-Zn-O thin-film transistors with high field-effect mobility (μFE) and hydrogen (H) resistivity are crucial for the semiconductor industry. Herein, a hybrid Al2O3 gate insulator (GI) is proposed that is designed by controlling the plasma-enhanced ALD and thermal ALD processes in situ to demonstrate robust characteristics. A hybrid GI is applied to the top-gate geometry of an In0.71Ga0.08Zn0.21O active layer. The optimal device exhibits exceptional electrical characteristics, including a threshold voltage of 0.37 V, μFE of 150.7 cm2 V s−1, subthreshold swing of 64.0 mV decade−1, and hysteresis of 0.02 V. It demonstrates high resistance to H annealing and reliable positive bias temperature stress, as well as changes in VTH shifts of −0.43 and 0.00 V, respectively. The excellent electrical characteristics and high robustness of the device can be attributed to the precise control of H, oxygen, and carbon species within the upper region of the hybrid GI. The achievement of robust device characteristics enables the design of a novel vertical complementary metal-oxide-semiconductor inverter that exhibits a voltage gain of 44.7 V V−1 and a noise margin of 87.5% at a 10 V supply voltage.
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