Emergent superconductivity in two-dimensional NiTe2 crystals

Abstract

Despite growing interest in them, highly crystalline two-dimensional superconductors derived from exfoliated layered materials are few. Employing the anisotropic Migdal-Eliashberg formalism based on ab initio calculations, we find monolayer NiTe2 to be an intrinsic superconductor with a T c5.7~K, although the bulk crystal is not known to superconduct. Remarkably, bilayer NiTe2 intercalated with lithium is found to display two-gap superconductivity with a critical temperature Tc 11.3~K and superconducting gap of 3.1~meV, arising from a synergy of electronic and phononic effects. The comparatively high Tc, substrate independence and proximity tunability will make these superconductors ideal platforms for exploring intriguing correlation effects and quantum criticality associated two-dimensional superconductivity.