Strategy for Fabricating Wafer-Scale Platinum Disulfide

Hongjun Xu, Hsin Pan Huang, Hai Feng Fei, Jiafeng Feng, Huei Ru Fuh, Jiung Cho, Miri Choi, Yanhui Chen, Lei Zhang, Dengyun Chen, Duan Zhang, Cormac O. Coileaín, Xiufeng Han, Ching Ray Chang, Han Chun Wu*

*此作品的通讯作者

科研成果: 期刊稿件文章同行评审

39 引用 (Scopus)

摘要

PtS 2 is a newly developed group 10 2D layered material with high carrier mobility, wide band gap tunability, strongly bound excitons, symmetrical metallic and magnetic edge states, and ambient stability, making it attractive in nanoelectronic, optoelectronic, and spintronic fields. To the aim of application, a large-scale synthesis is necessary. For transition-metal dichalcogenide (TMD) compounds, a thermally assisted conversion method has been widely used to fabricate wafer-scale thin films. However, PtS 2 cannot be easily synthesized using the method, as the tetragonal PtS phase is more stable. Here, we use a specified quartz part to locally increase the vapor pressure of sulfur in a chemical vapor deposition furnace and successfully extend this method for the synthesis of PtS 2 thin films in a scalable and controllable manner. Moreover, the PtS and PtS 2 phases can be interchangeably converted through a proposed strategy. Field-effect transistor characterization and photocurrent measurements suggest that PtS 2 is an ambipolar semiconductor with a narrow band gap. Moreover, PtS 2 also shows excellent gas-sensing performance with a detection limit of a 0.4 ppb for NO 2 . Our work presents a relatively simple way of synthesizing PtS 2 thin films and demonstrates their promise for high-performance ultrasensitive gas sensing, broadband optoelectronics, and nanoelectronics in a scalable manner. Furthermore, the proposed strategy is applicable for making other PtX 2 compounds and TMDs which are compatible with modern silicon technologies.

源语言英语
页(从-至)8202-8209
页数8
期刊ACS applied materials & interfaces
11
8
DOI
出版状态已出版 - 27 2月 2019

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