BaAs3: A narrow gap 2D semiconductor with vacancy-induced semiconductor-metal transition

Abstract

Searching for novel two-dimensional (2D) materials is highly desired in the field of nanoelectronics. We here propose a new 2D crystal barium tri-arsenide (BaAs3) with a series of encouraging functionalities. Being kinetically and thermally stable, the monolayer and bilayer forms of BaAs3 possess narrow indirect band gaps of 0.87 eV and 0.40 eV, respectively, with high hole mobilities on the order of ~103\ cm2\,V-1\,s-1. The electronic properties of 2D BaAs3 can be manipulated by controlling the layer thickness. The favorable cleavage energy reveals that layered BaAs3 can be produced as a freestanding 2D material. Furthermore, by introducing vacancy defects monolayer BaAs3 can be transformed from a semiconductor to a metal. 2D BaAs3 may find promising applications in nanoelectronic devices.