Epitaxial growth of Bi, Sb, and Sn

Shuyu Liu; Ji Li; Xianglin Peng; Xu Dong; Yongkai Li; Peiyao Xiao; Zhiwei Wang; Wende Xiao

doi:10.1116/6.0002641

Epitaxial growth of Bi, Sb, and Sn

Shuyu Liu, Ji Li, Xianglin Peng, Xu Dong, Yongkai Li, Peiyao Xiao, Zhiwei Wang, Wende Xiao^*

^*Corresponding author for this work

School of Physics

Beijing Institute of Technology

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

Abstract

Graphene analogs composed of Bi, Sb, and Sn, respectively, are predicted to be great candidates to realize the quantum spin Hall effect at high temperatures and have attracted intensive research interest in recent years. However, their structural and electronic properties are greatly affected by substrates. Here, we epitaxially grow Bi, Sb, and Sn overlayers on various substrates. We observed the formation of Au-Bi alloy on Au(111) substrates, while α-Bi was formed on the TaIrTe₄, TiSe₂and Cr₂Ge₂Te₆ substrates. Large-scale thin films of α-Bi, α-Sb and β-Sn can be prepared on the TiSe₂ substrates due to the high quality of the substrates with very few defects. The lattice of the Sb films is slightly compressed on the TiSe₂ substrates, due to the interfacial interaction. α-Sn transitions to β-Sn on the TiSe₂ substrates with increasing Sn coverages. Our work is very helpful for tuning the structural and electronic properties of epitaxial Bi, Sb, and Sn films via proper substrates.

Original language	English
Article number	042202
Journal	Journal of Vacuum Science and Technology A: Vacuum, Surfaces and Films
Volume	41
Issue number	4
DOIs	https://doi.org/10.1116/6.0002641
Publication status	Published - 1 Jul 2023

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title = "Epitaxial growth of Bi, Sb, and Sn",

abstract = "Graphene analogs composed of Bi, Sb, and Sn, respectively, are predicted to be great candidates to realize the quantum spin Hall effect at high temperatures and have attracted intensive research interest in recent years. However, their structural and electronic properties are greatly affected by substrates. Here, we epitaxially grow Bi, Sb, and Sn overlayers on various substrates. We observed the formation of Au-Bi alloy on Au(111) substrates, while α-Bi was formed on the TaIrTe4, TiSe2and Cr2Ge2Te6 substrates. Large-scale thin films of α-Bi, α-Sb and β-Sn can be prepared on the TiSe2 substrates due to the high quality of the substrates with very few defects. The lattice of the Sb films is slightly compressed on the TiSe2 substrates, due to the interfacial interaction. α-Sn transitions to β-Sn on the TiSe2 substrates with increasing Sn coverages. Our work is very helpful for tuning the structural and electronic properties of epitaxial Bi, Sb, and Sn films via proper substrates.",

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T1 - Epitaxial growth of Bi, Sb, and Sn

AU - Liu, Shuyu

AU - Li, Ji

AU - Peng, Xianglin

AU - Dong, Xu

AU - Li, Yongkai

AU - Xiao, Peiyao

AU - Wang, Zhiwei

AU - Xiao, Wende

PY - 2023/7/1

Y1 - 2023/7/1

N2 - Graphene analogs composed of Bi, Sb, and Sn, respectively, are predicted to be great candidates to realize the quantum spin Hall effect at high temperatures and have attracted intensive research interest in recent years. However, their structural and electronic properties are greatly affected by substrates. Here, we epitaxially grow Bi, Sb, and Sn overlayers on various substrates. We observed the formation of Au-Bi alloy on Au(111) substrates, while α-Bi was formed on the TaIrTe4, TiSe2and Cr2Ge2Te6 substrates. Large-scale thin films of α-Bi, α-Sb and β-Sn can be prepared on the TiSe2 substrates due to the high quality of the substrates with very few defects. The lattice of the Sb films is slightly compressed on the TiSe2 substrates, due to the interfacial interaction. α-Sn transitions to β-Sn on the TiSe2 substrates with increasing Sn coverages. Our work is very helpful for tuning the structural and electronic properties of epitaxial Bi, Sb, and Sn films via proper substrates.

AB - Graphene analogs composed of Bi, Sb, and Sn, respectively, are predicted to be great candidates to realize the quantum spin Hall effect at high temperatures and have attracted intensive research interest in recent years. However, their structural and electronic properties are greatly affected by substrates. Here, we epitaxially grow Bi, Sb, and Sn overlayers on various substrates. We observed the formation of Au-Bi alloy on Au(111) substrates, while α-Bi was formed on the TaIrTe4, TiSe2and Cr2Ge2Te6 substrates. Large-scale thin films of α-Bi, α-Sb and β-Sn can be prepared on the TiSe2 substrates due to the high quality of the substrates with very few defects. The lattice of the Sb films is slightly compressed on the TiSe2 substrates, due to the interfacial interaction. α-Sn transitions to β-Sn on the TiSe2 substrates with increasing Sn coverages. Our work is very helpful for tuning the structural and electronic properties of epitaxial Bi, Sb, and Sn films via proper substrates.

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Epitaxial growth of Bi, Sb, and Sn

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