Low-symmetry two-dimensional BNP2 and C2SiS structures with high and anisotropic carrier mobilities

Abstract

We study the stability and electronic structure of previously unexplored two-dimensional (2D) ternary compounds BNP2 and C2SiS. Using ab initio density functional theory, we have identified four stable allotropes of each ternary compound and confirmed their stability by calculated phonon spectra and molecular dynamics simulations. Whereas all BNP2 allotropes are semiconducting, we find C2SiS, depending on the allotrope, to be semiconducting or semimetallic. The fundamental band gaps of the semiconducting allotropes we study range from 1.4 eV to 2.2 eV at the HSE06 level 0.5 eV to 1.4 eV at the PBE level and display carrier mobilities as high as 1.5×105 cm2V-1s-1. Such high mobilities are quite uncommon in semiconductors with so wide band gaps. Structural ridges in the geometry of all allotropes cause a high anisotropy in their mechanical and transport properties, promising a wide range of applications in electronics and optoelectronics.