Ultra-High Mobility Atomically-Ordered InGaZnO Transistors Through Atomic Layer Depositionopen access
- Authors
- Kim, Yoon-Seo; Kim, Hyeon Woo; Hwang, Taewon; Ahn, Jinho; Cho, Sung Beom; Park, Jin-Seong
- Issue Date
- Sep-2025
- Publisher
- Wiley-VCH Verlag
- Keywords
- carrier quantum confinement; indium gallium zinc oxide semiconductor; plasma-enhanced atomic layer deposition; thin-film transistors; ultra-high mobility
- Citation
- Advanced Electronic Materials, v.11, no.15, pp 1 - 10
- Pages
- 10
- Indexed
- SCIE
SCOPUS
- Journal Title
- Advanced Electronic Materials
- Volume
- 11
- Number
- 15
- Start Page
- 1
- End Page
- 10
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/210658
- DOI
- 10.1002/aelm.202500137
- ISSN
- 2199-160X
2199-160X
- Abstract
- Owing to the challenges of downsizing and reducing power consumption in the semiconductor industry, oxide semiconductors such as indium-gallium-zinc-oxide (IGZO) are emerging as notable alternative materials due to their compatibility with back-end-of-line processes and low leakage currents. However, enhancing electrical characteristics of oxide semiconductors to match silicon-based channels remains crucial. In this study, atomically-ordered (AO) IGZO is first synthesized using plasma-enhanced atomic layer deposition, resulting in a transistor with a field-effect mobility of 245 cm2 Vs−1 and excellent switching properties (threshold voltage = 0.17 V, subthreshold swing <75 mV dec−1) in a low thermal budget process (below 250 °C). Theoretical and experimental studies revealed that the ultra-high mobility originates from the carrier quantum confinement induced by the multi-quantum well structure of AO-IGZO. Our approach highlights the potential of oxide semiconductors to surpass limitations of silicon-based technology limitations, thereby paving the way for next-generation channel materials.
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