Phonon-limited carrier mobility in monolayer Black Phosphorous

Abstract

We calculate an electron-phonon scattering and intrinsic transport properties of black phosphorus monolayer using tight-binding and Boltzmann treatments as a function of temperature, carrier density, and electric field. The low-field mobility shows weak dependence on density and, at room temperature, falls in the range of 300 - 1000 cm2/Vs in the armchair direction and 50 - 120 cm2/Vs in the zig-zag direction with the anisotropy due to an effective mass difference. At high fields, drift velocity is linear with electric field up to 1 - 2 V/micron reaching values of 107 cm/s in the armchair direction, unless self-heating effects are included.