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Synthesis and Characterization of Metallic Janus MoSH Monolayer

Janus transition-metal dichalcogenides (TMDCs) are emerging as special 2D materials with different chalcogen atoms covalently bonded on each side of the unit cell, resulting in interesting properties. To date, several synthetic strategies have been developed to realize Janus TMDCs, which first invol...

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Bibliographic Details
Published in:ACS nano 2021-12, Vol.15 (12), p.20319-20331
Main Authors: Wan, Xi, Chen, EnZi, Yao, Jie, Gao, Mingliang, Miao, Xin, Wang, Shuai, Gu, Yanyun, Xiao, Shaoqing, Zhan, Runze, Chen, Kun, Chen, Zefeng, Zeng, Xiaoliang, Gu, Xiaofeng, Xu, Jianbin
Format: Article
Language:English
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Summary:Janus transition-metal dichalcogenides (TMDCs) are emerging as special 2D materials with different chalcogen atoms covalently bonded on each side of the unit cell, resulting in interesting properties. To date, several synthetic strategies have been developed to realize Janus TMDCs, which first involves stripping the top-layer S of MoS2 with H atoms. However, there has been little discussion on the intermediate Janus MoSH. It is critical to find the appropriate plasma treatment time to avoid sample damage. A thorough understanding of the formation and properties of MoSH is highly desirable. In this work, a controlled H2-plasma treatment has been developed to gradually synthesize a Janus MoSH monolayer, which was confirmed by the TOF-SIMS analysis as well as the subsequent fabrication of MoSSe. The electronic properties of MoSH, including the high intrinsic carrier concentration (∼2 × 1013 cm–2) and the Fermi level (∼ – 4.11 eV), have been systematically investigated by the combination of FET device study, KPFM, and DFT calculations. The results demonstrate a method for the creation of Janus MoSH and present the essential electronic parameters which have great significance for device applications. Furthermore, owing to the metallicity, 2D Janus MoSH might be a potential platform to observe the SPR behavior in the mid-infrared region.
ISSN:1936-0851
1936-086X
DOI:10.1021/acsnano.1c08531