New approach for the molecular beam epitaxy growth of scalable single-crystalline WSe2 monolayers

Abstract

The search for high-quality transition metal dichalcogenides mono- and multi-layers grown on large areas is still a very active field of investigation nowadays. Here, we use molecular beam epitaxy to grow 15×15 mm large WSe2 on mica in the van der Waals regime. By screening one-step growth conditions, we find that very high temperature (>900C) and very low deposition rate (<0.015 nm/min) are necessary to obtain high quality WSe2 films. The domain size can be larger than 1 μm and the in-plane rotational misorientation less than 0.5. The WSe2 monolayer is also robust against air exposure, can be easily transferred over 1 cm2 on SiN/SiO2 and exhibits strong photoluminescence signal. Moreover, by combining grazing incidence x-ray diffraction and transmission electron microscopy, we could detect the presence of few misoriented grains. A two-dimensional model based on atomic coincidences between the WSe2 and mica crystals allows us to explain the formation of these misoriented grains and gives suggestion to remove them and further improve the crystalline quality of WSe2.