Fundamental research and technological applications of topological insulators are hindered by the rarity of materials exhibiting a robust topologically nontrivial phase, especially in two dimensions. Here, by means of extensive first-principles calculations, we propose a novel quantum spin Hall insulator with a sizable band gap of ∼0.5 eV that is a monolayer of jacutingaite, a naturally occurring layered mineral first discovered in 2008 in Brazil and recently synthesized. This system realizes the paradigmatic Kane-Mele model for quantum spin Hall insulators in a potentially exfoliable two-dimensional monolayer, with helical edge states that are robust and that can be manipulated exploiting a unique strong interplay between spin-orbit coupling, crystal-symmetry breaking, and dielectric response.

Prediction of a Large-Gap and Switchable Kane-Mele Quantum Spin Hall Insulator / Marrazzo, A.; Gibertini, M.; Campi, D.; Mounet, N.; Marzari, N.. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 120:11(2018), pp. 117701-117706. [10.1103/PhysRevLett.120.117701]

Prediction of a Large-Gap and Switchable Kane-Mele Quantum Spin Hall Insulator

Gibertini M.;
2018

Abstract

Fundamental research and technological applications of topological insulators are hindered by the rarity of materials exhibiting a robust topologically nontrivial phase, especially in two dimensions. Here, by means of extensive first-principles calculations, we propose a novel quantum spin Hall insulator with a sizable band gap of ∼0.5 eV that is a monolayer of jacutingaite, a naturally occurring layered mineral first discovered in 2008 in Brazil and recently synthesized. This system realizes the paradigmatic Kane-Mele model for quantum spin Hall insulators in a potentially exfoliable two-dimensional monolayer, with helical edge states that are robust and that can be manipulated exploiting a unique strong interplay between spin-orbit coupling, crystal-symmetry breaking, and dielectric response.
2018
120
11
117701
117706
WOS:000427318600010
2-s2.0-85044205642
29601749
Prediction of a Large-Gap and Switchable Kane-Mele Quantum Spin Hall Insulator / Marrazzo, A.; Gibertini, M.; Campi, D.; Mounet, N.; Marzari, N.. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 120:11(2018), pp. 117701-117706. [10.1103/PhysRevLett.120.117701]
Marrazzo, A.; Gibertini, M.; Campi, D.; Mounet, N.; Marzari, N.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1185863
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