Low-Energy Phases of Bi Monolayer Predicted by Structure Search in Two Dimensions

Sobhit Singh; Zeila Zanolli; Maximilian Amsler; Brahim Belhadji; Jorge O. Sofo; Matthieu J. Verstraete; Aldo H. Romero

doi:10.1021/acs.jpclett.9b03043

Low-Energy Phases of Bi Monolayer Predicted by Structure Search in Two Dimensions

Sobhit Singh, Zeila Zanolli, Maximilian Amsler, Brahim Belhadji, Jorge O. Sofo, Matthieu J. Verstraete, Aldo H. Romero

Physics

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

26 Scopus citations

Abstract

We employ an ab-initio structure search algorithm to explore the configurational space of bismuth in quasi-two dimensions. A confinement potential is introduced to restrict the movement of atoms within a predefined thickness to find the stable and metastable forms of monolayer Bi. In addition to the two known low-energy structures (puckered monoclinic and buckled hexagonal), our calculations predict three new phases: α, β, and γ. Each phase exhibits peculiar electronic properties, ranging from metallic (α and γ) to semiconducting (puckered monoclinic, buckled hexagonal, and β) monolayers. Topologically nontrivial features are predicted for buckled hexagonal and γphases. We also remark on the role of 5d electrons on the electronic properties of Bi monolayer. We conclude that Bi provides a rich playground to study distortion-mediated metal-insulator phase transitions in quasi-2D.

Original language	English (US)
Pages (from-to)	7324-7332
Number of pages	9
Journal	Journal of Physical Chemistry Letters
Volume	10
Issue number	23
DOIs	https://doi.org/10.1021/acs.jpclett.9b03043
State	Published - Dec 5 2019

All Science Journal Classification (ASJC) codes

General Materials Science
Physical and Theoretical Chemistry

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10.1021/acs.jpclett.9b03043

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title = "Low-Energy Phases of Bi Monolayer Predicted by Structure Search in Two Dimensions",

abstract = "We employ an ab-initio structure search algorithm to explore the configurational space of bismuth in quasi-two dimensions. A confinement potential is introduced to restrict the movement of atoms within a predefined thickness to find the stable and metastable forms of monolayer Bi. In addition to the two known low-energy structures (puckered monoclinic and buckled hexagonal), our calculations predict three new phases: α, β, and γ. Each phase exhibits peculiar electronic properties, ranging from metallic (α and γ) to semiconducting (puckered monoclinic, buckled hexagonal, and β) monolayers. Topologically nontrivial features are predicted for buckled hexagonal and γphases. We also remark on the role of 5d electrons on the electronic properties of Bi monolayer. We conclude that Bi provides a rich playground to study distortion-mediated metal-insulator phase transitions in quasi-2D.",

author = "Sobhit Singh and Zeila Zanolli and Maximilian Amsler and Brahim Belhadji and Sofo, {Jorge O.} and Verstraete, {Matthieu J.} and Romero, {Aldo H.}",

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T1 - Low-Energy Phases of Bi Monolayer Predicted by Structure Search in Two Dimensions

AU - Singh, Sobhit

AU - Zanolli, Zeila

AU - Amsler, Maximilian

AU - Belhadji, Brahim

AU - Sofo, Jorge O.

AU - Verstraete, Matthieu J.

AU - Romero, Aldo H.

PY - 2019/12/5

Y1 - 2019/12/5

N2 - We employ an ab-initio structure search algorithm to explore the configurational space of bismuth in quasi-two dimensions. A confinement potential is introduced to restrict the movement of atoms within a predefined thickness to find the stable and metastable forms of monolayer Bi. In addition to the two known low-energy structures (puckered monoclinic and buckled hexagonal), our calculations predict three new phases: α, β, and γ. Each phase exhibits peculiar electronic properties, ranging from metallic (α and γ) to semiconducting (puckered monoclinic, buckled hexagonal, and β) monolayers. Topologically nontrivial features are predicted for buckled hexagonal and γphases. We also remark on the role of 5d electrons on the electronic properties of Bi monolayer. We conclude that Bi provides a rich playground to study distortion-mediated metal-insulator phase transitions in quasi-2D.

AB - We employ an ab-initio structure search algorithm to explore the configurational space of bismuth in quasi-two dimensions. A confinement potential is introduced to restrict the movement of atoms within a predefined thickness to find the stable and metastable forms of monolayer Bi. In addition to the two known low-energy structures (puckered monoclinic and buckled hexagonal), our calculations predict three new phases: α, β, and γ. Each phase exhibits peculiar electronic properties, ranging from metallic (α and γ) to semiconducting (puckered monoclinic, buckled hexagonal, and β) monolayers. Topologically nontrivial features are predicted for buckled hexagonal and γphases. We also remark on the role of 5d electrons on the electronic properties of Bi monolayer. We conclude that Bi provides a rich playground to study distortion-mediated metal-insulator phase transitions in quasi-2D.

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JO - Journal of Physical Chemistry Letters

JF - Journal of Physical Chemistry Letters

IS - 23

ER -

Low-Energy Phases of Bi Monolayer Predicted by Structure Search in Two Dimensions

Abstract

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