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Advancements and hurdles in contact engineering for miniaturized sub-micrometer oxide semiconductor devicesopen access

Authors
Jeong, Joo HeeOh, Jeong EunKim, DongseonHa, DaewonJeong, Jae Kyeong
Issue Date
Mar-2025
Publisher
Royal Society of Chemistry
Citation
Journal of Materials Chemistry C, v.13, no.10, pp 4861 - 4875
Pages
15
Indexed
SCIE
SCOPUS
Journal Title
Journal of Materials Chemistry C
Volume
13
Number
10
Start Page
4861
End Page
4875
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/210546
DOI
10.1039/d4tc04792c
ISSN
2050-7526
2050-7534
Abstract
With conventional silicon-based devices approaching their physical scaling limits, alternative channel materials, such as transition metal dichalcogenides and oxide semiconductors (OSs), have emerged as promising candidates for extending Moore's law and advancing performance, power efficiency, area scaling, and cost-effectiveness. Among these, OSs stand out as particularly promising, having already been established as the industry standard for high-end active-matrix organic light-emitting diodes due to their moderate mobility, extremely low off-current, steep subthreshold swing, excellent uniformity, and compatibility with low-temperature fabrication processes. However, to enable the deployment of OSs in more demanding applications, such as 3D dynamic random-access memory and other advanced electronic systems, further improvements are necessary, particularly in terms of enhancing on-current and hydrogen stability and reducing contact resistance (RC). In this work, we review strategies to optimize electrical contact properties to improve the device performance of OSs and examine the underlying mechanism of RC from a device physics perspective.
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