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Autores principales: Osorio, Alam, Reining, Lucia, Sottile, Francesco
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2509.19106
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author Osorio, Alam
Reining, Lucia
Sottile, Francesco
author_facet Osorio, Alam
Reining, Lucia
Sottile, Francesco
contents Borophene is a two-dimensional material made out of boron atoms only. It exhibits polymorphism and different allotropes can be studied in terms of a rigid electronic structure, where only the occupation of the states change with the respect to the number of electrons available in the system (self-doping). In this work we selected a set of representative borophene polymorphs ($δ_3$, $δ_5$, $δ_6$, $β_{12}$ $α_1$, $α'$, $α'$-Bilayer) and studied the shared features of their electronic structures and the limitations of this model. Our work revealed the appearance of defect-like states in some polymorphs when related to a parent rigid electronic structure, and bonding/antibonding monolayer-like states in the $α'$-Bilayer. Moreover, we show how the buckling of $δ_6$ and $α'$ can act as a tuning parameter, enabling semimetallicity, Dirac cones, and nesting of the Fermi surface. In light of their promises for exotic but also useful behavior, we expect our work to foster the interest in larger and more complex borophene structures.
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id arxiv_https___arxiv_org_abs_2509_19106
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Trends in the electronic structure of borophene polymorphs
Osorio, Alam
Reining, Lucia
Sottile, Francesco
Materials Science
Borophene is a two-dimensional material made out of boron atoms only. It exhibits polymorphism and different allotropes can be studied in terms of a rigid electronic structure, where only the occupation of the states change with the respect to the number of electrons available in the system (self-doping). In this work we selected a set of representative borophene polymorphs ($δ_3$, $δ_5$, $δ_6$, $β_{12}$ $α_1$, $α'$, $α'$-Bilayer) and studied the shared features of their electronic structures and the limitations of this model. Our work revealed the appearance of defect-like states in some polymorphs when related to a parent rigid electronic structure, and bonding/antibonding monolayer-like states in the $α'$-Bilayer. Moreover, we show how the buckling of $δ_6$ and $α'$ can act as a tuning parameter, enabling semimetallicity, Dirac cones, and nesting of the Fermi surface. In light of their promises for exotic but also useful behavior, we expect our work to foster the interest in larger and more complex borophene structures.
title Trends in the electronic structure of borophene polymorphs
topic Materials Science
url https://arxiv.org/abs/2509.19106