Growth of monolayer 1T′-WTe2 with a nearly complete coverage

Jiamin Yao; Haimin Zhang; Dezhi Song; Jun Zhang; Ye Ping Jiang

doi:10.1063/5.0244128

Growth of monolayer 1T′-WTe₂ with a nearly complete coverage

Jiamin Yao, Haimin Zhang, Dezhi Song, Jun Zhang, Ye Ping Jiang

School of Physics and Electronic Science

East China Normal University

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Monolayer WTe₂, known for its intriguing properties as a quantum spin Hall insulator, presents significant challenges for high-quality epitaxial film growth. These difficulties primarily arise from the low mobility of W on the substrate and the reduced reaction rate between W and Te. This study addresses these challenges by employing a low-temperature deposition technique combined with the introduction of a Te buffer layer to mitigate these limitations. High-quality monolayer 1T′-WTe₂ with nearly complete coverage has been grown on the SrTiO₃ (100) substrate. Furthermore, scanning tunneling microscopy/spectroscopy demonstrates the presence of random domain orientations and variations in gap size within the monolayer WTe₂. This approach offers a solution to the primary obstacles in WTe₂ epitaxial growth and may be extended to other transition metal dichalcogenides.

Original language	English
Article number	073101
Journal	Applied Physics Letters
Volume	126
Issue number	7
DOIs	https://doi.org/10.1063/5.0244128
State	Published - 17 Feb 2025

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title = "Growth of monolayer 1T′-WTe2 with a nearly complete coverage",

abstract = "Monolayer WTe2, known for its intriguing properties as a quantum spin Hall insulator, presents significant challenges for high-quality epitaxial film growth. These difficulties primarily arise from the low mobility of W on the substrate and the reduced reaction rate between W and Te. This study addresses these challenges by employing a low-temperature deposition technique combined with the introduction of a Te buffer layer to mitigate these limitations. High-quality monolayer 1T′-WTe2 with nearly complete coverage has been grown on the SrTiO3 (100) substrate. Furthermore, scanning tunneling microscopy/spectroscopy demonstrates the presence of random domain orientations and variations in gap size within the monolayer WTe2. This approach offers a solution to the primary obstacles in WTe2 epitaxial growth and may be extended to other transition metal dichalcogenides.",

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T1 - Growth of monolayer 1T′-WTe2 with a nearly complete coverage

AU - Yao, Jiamin

AU - Zhang, Haimin

AU - Song, Dezhi

AU - Zhang, Jun

AU - Jiang, Ye Ping

PY - 2025/2/17

Y1 - 2025/2/17

N2 - Monolayer WTe2, known for its intriguing properties as a quantum spin Hall insulator, presents significant challenges for high-quality epitaxial film growth. These difficulties primarily arise from the low mobility of W on the substrate and the reduced reaction rate between W and Te. This study addresses these challenges by employing a low-temperature deposition technique combined with the introduction of a Te buffer layer to mitigate these limitations. High-quality monolayer 1T′-WTe2 with nearly complete coverage has been grown on the SrTiO3 (100) substrate. Furthermore, scanning tunneling microscopy/spectroscopy demonstrates the presence of random domain orientations and variations in gap size within the monolayer WTe2. This approach offers a solution to the primary obstacles in WTe2 epitaxial growth and may be extended to other transition metal dichalcogenides.

AB - Monolayer WTe2, known for its intriguing properties as a quantum spin Hall insulator, presents significant challenges for high-quality epitaxial film growth. These difficulties primarily arise from the low mobility of W on the substrate and the reduced reaction rate between W and Te. This study addresses these challenges by employing a low-temperature deposition technique combined with the introduction of a Te buffer layer to mitigate these limitations. High-quality monolayer 1T′-WTe2 with nearly complete coverage has been grown on the SrTiO3 (100) substrate. Furthermore, scanning tunneling microscopy/spectroscopy demonstrates the presence of random domain orientations and variations in gap size within the monolayer WTe2. This approach offers a solution to the primary obstacles in WTe2 epitaxial growth and may be extended to other transition metal dichalcogenides.

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DO - 10.1063/5.0244128

M3 - 文章

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VL - 126

JO - Applied Physics Letters

JF - Applied Physics Letters

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Growth of monolayer 1T′-WTe₂ with a nearly complete coverage

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