Abstract
Based on first-principles calculations, we predict BiTeI, a stoichiometric compound that is synthesized, to be a weak topological insulator (TI) in layered subvalent bismuth telluroiodides. Within a bulk energy gap of 80 meV, two Dirac-cone-like topological surface states exist on the side surface perpendicular to the BiTeI layer plane. These Dirac cones are relatively isotropic due to the strong interlayer coupling, distinguished from those of previously reported weak TI candidates. Moreover, with chemically stable cladding layers, the BiTeI-Bi-BiTeI sandwiched structure is a robust quantum spin Hall system, which can be obtained by simply cleaving the bulk BiTeI.
- Received 30 July 2013
- Revised 12 January 2014
DOI:https://doi.org/10.1103/PhysRevB.89.041409
©2014 American Physical Society