Phonon-assisted magnetic Mott-insulating state in the charge density wave phase of single-layer 1TNbSe2

Abstract

We study the structural, electronic and vibrational properties of single-layer 1TNbSe2 from first principles. Within the generalized gradient approximation, the 1T polytype is highly unstable with respect to the 2H. The DFT+U method improves the stability of the 1T phase, explaining its detection in experiments. A charge density wave occurs with a 13×13~R30 periodicity, in agreement with STM data. At U=0, the David-star reconstruction displays a flat band below the Fermi level with a marked dz2-r2 orbital character of the central Nb. The Hubbard interaction induces a magnetic Mott insulating state. Magnetism distorts the lattice around the central Nb atom in the star, reduces the hybridization between the central Nb dz2-r2 orbital and the neighbouring Se p-states and lifts in energy the flat band becoming non-bonding. This cooperative lattice and magnetic effect amplifies the Mott gap. Single-layer 1TNbSe2 is then a phonon-assisted spin-1/2 Magnetic Mott insulator.