Tight-binding model and direct-gap/indirect-gap transition in single-layer and multilayer MoS${}_{2}$

Tight-binding model and direct-gap/indirect-gap transition in single-layer and multilayer MoS $_{2}$

E. Cappelluti, R. Roldán, J. A. Silva-Guillén, P. Ordejón, and F. Guinea

Phys. Rev. B 88, 075409 – Published 8 August 2013

Abstract

In this paper we present a paradigmatic tight-binding model for single-layer as well as multilayered semiconducting MoS $_{2}$ and similar transition metal dichalcogenides. We show that the electronic properties of multilayer systems can be reproduced in terms of a tight-binding modeling of the single-layer hopping terms by simply adding the proper interlayer hoppings ruled by the chalcogenide atoms. We show that such a tight-binding model makes it possible to understand and control in a natural way the transition between a direct-gap band structure, in single-layer systems, and an indirect gap in multilayer compounds in terms of a momentum/orbital selective interlayer splitting of the relevant valence and conduction bands. The model represents also a suitable playground to investigate in an analytical way strain and finite-size effects.

Received 24 April 2013

DOI:https://doi.org/10.1103/PhysRevB.88.075409

Authors & Affiliations

E. Cappelluti^1,2, R. Roldán¹, J. A. Silva-Guillén³, P. Ordejón³, and F. Guinea¹

¹Instituto de Ciencia de Materiales de Madrid, CSIC, c/ Sor Juana Ines de la Cruz 3, 28049 Cantoblanco, Madrid, Spain
²Istituto dei Sistemi Complessi, U.O.S. Sapienza, CNR, v. dei Taurini 19, 00185 Roma, Italy
³Centre d’Investigació en Nanociència i Nanotecnologia-CIN2 (CSIC-ICN), Campus UAB, Bellaterra, Spain

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Vol. 88, Iss. 7 — 15 August 2013

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Physical Review B

covering condensed matter and materials physics