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Journal of Materials Science: Materials in Electronics

Erschienen in:

11.09.2019

The evolution of MoS₂ properties under oxygen plasma treatment and its application in MoS₂ based devices

verfasst von: Yadong Zhang, Jiangtao Liu, Yu Pan, Kun Luo, Jiahan Yu, Yongkui Zhang, Kunpeng Jia, Huaxiang Yin, Huilong Zhu, Hanmin Tian, Zhenhua Wu

Erschienen in: Journal of Materials Science: Materials in Electronics | Ausgabe 19/2019

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Abstract

CVD molybdenum disulfide (MoS₂) is shown to chemically oxidize rapidly after pure oxygen plasma bombardment. Atomic force microscopy (AFM), photoluminescence spectrum (PL), Raman spectrum and X-ray photoelectron spectroscopy (XPS) are employed to characterize the physical and chemical properties and indicate that MoO₃ is easily formed from MoS₂. The result of AFM shows that thickness of the film increases from 0.9 to 1.79 nm after oxygen plasma treatment, which is mainly due to the difference in lattice structure between pristine MoS₂ and generated MoO₃. XPS analysis shows that the intensity of the S2s peak is reduced to 0 after oxygen plasma treatment. Also, the intensities of Mo⁴⁺ peaks disappear at 233.2 eV and 230 eV, leaving only the Mo⁶⁺ peaks at 232.5 eV and 235.65 eV, which strongly proves the transformation of MoS₂ to MoO₃. Further, we use oxygen plasma to treat few-layer MoS₂, and find that the top oxidized layer can protect the lower MoS₂ from further oxidation. Finally, we obtain p-type doped transistors with this method.

Vorheriger Artikel Realization of color-tunable emission via energy transfer in novel single-phase K3YB6O12:Bi3+, Eu3+ phosphors

Nächster Artikel Novel g-C3N4/TiO2 nanorods with enhanced photocatalytic activity for water treatment and H2 production

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Titel: The evolution of MoS2 properties under oxygen plasma treatment and its application in MoS2 based devices
verfasst von: Yadong Zhang
Jiangtao Liu
Yu Pan
Kun Luo
Jiahan Yu
Yongkui Zhang
Kunpeng Jia
Huaxiang Yin
Huilong Zhu
Hanmin Tian
Zhenhua Wu
Publikationsdatum: 11.09.2019
Verlag: Springer US
Erschienen in: Journal of Materials Science: Materials in Electronics / Ausgabe 19/2019
Print ISSN: 0957-4522
Elektronische ISSN: 1573-482X
DOI: https://doi.org/10.1007/s10854-019-02172-5

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