New approach for the molecular beam epitaxy growth of scalable WSe <sub>2</sub> monolayers
Céline Vergnaud, Minh Tuan Dau, Benjamin Grévin, Christophe Licitra, A. Marty, Hanako Okuno, Matthieu Jamet
Abstract
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. Here, we use molecular beam epitaxy to grow WSe 2 on 15 × 15 mm large mica in the van der Waals regime. By screening one-step growth conditions, we find that very high temperature (>900 °C) and very low deposition rate (<0.15 Å min −1 ) are necessary to obtain high quality WSe 2 films. The domain size can be as large as 1 µ m and the in-plane rotational misorientation of 1.25°. The WSe 2 monolayer is also robust against air exposure, can be easily transferred over 1 cm 2 on SiN/SiO 2 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 WSe 2 and mica crystals allows us to explain the formation of these misoriented grains and gives insight to achieve highly crystalline WSe 2 .