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Impacts of localized charge accumulation on photocurrent dynamics in metal-MoS2 contacts

Authors
Choi, DeogkyuBang, SeunghoLee, JuchanLee, ChaewonJo, JieunYu, Young JooKwon, ChanKo, HayoungKim, Ki KangAhn, JinhoKim, Eun KyuJeong, Mun Seok
Issue Date
Jul-2025
Publisher
Royal Society of Chemistry
Keywords
Disulfide; Molybdenum; Carrier Transport; Contacts (fluid Mechanics); Molybdenum Disulfide; Monolayers; Optoelectronic Devices; Photocurrents; Reduction; Semiconductor Junctions; % Reductions; Carriers Transport; Charge Accumulation; Drain Sources; Localised Charges; Metal-semiconductor Junctions; Mos 2; Optoelectronics Property; Performance; Layered Semiconductors; Disulfide; Metal; Molybdenum; Article; Controlled Study; Electric Potential; Semiconductor
Citation
Nanoscale, v.17, no.28, pp 16775 - 16783
Pages
9
Indexed
SCIE
SCOPUS
Journal Title
Nanoscale
Volume
17
Number
28
Start Page
16775
End Page
16783
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/208300
DOI
10.1039/d4nr04610b
ISSN
2040-3364
2040-3372
Abstract
Monolayer molybdenum disulfide (1L-MoS2) has attracted a lot of attention due to its excellent electrical and optoelectronic properties. However, the instability of the metal-semiconductor junction remains a challenge, which greatly affects the performance of the drain/source contacts. Despite the promising potential offered by 1L-MoS2 as an ultrathin two-dimensional semiconductor, its optoelectronic performance is often compromised by contact issues at the metal-semiconductor junctions. In particular, localized charge accumulation (LCA) can cause barrier height fluctuation, which affects carrier transport and activated trap states. In this study, we use photocurrent mapping to investigate photocurrent reduction and its optoelectronic properties depending on the device position. The results show a significant reduction in the photoresponsivity and photodetectivity of the LCA region compared to the channel. Moreover, the decay time of the LCA region was approximately twice as long as that of the channel, indicating the presence of deep traps leading to slow switching. This study shows that the photogenerated LCA region significantly impairs optoelectronics performance by disturing carrier transport, exhiniting up to a 30-fold reduction in photocurrent compared to the channel. It also provides a critical understanding necessary for engineering next-generation optoelectronics based on 2D semiconductors.
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서울 자연과학대학 > 서울 물리학과 > 1. Journal Articles
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