Growth of two dimensional antiferromagnetic CrCl₃ flakes down to monolayer thickness

The van der Waals (vdW) CrCl₃ is a two-dimensional (2D) antiferromagnet. Previous reports have mainly focused on mechanically exfoliated samples, while controlled synthesis of high quality CrCl₃ thin flakes is critical for their application in 2D spintronics. Here, we report the growth of ultrathin CrCl₃ flakes with well-defined shapes down to monolayer thickness (~0.7 nm) via physical vapor transport technique. Confocal Raman measurements show that the CrCl₃ flakes are crystalized in the monoclinic structures at room temperature, consistent with high-resolution transmission electron microscopy results. We carry out atomic force microscopy and electrical characterizations on CrCl₃ flakes with various thicknesses as a function of time. Thick CrCl₃ flakes (>50 nm) show excellent ambient stability for up to 5 months after growth, while ultrathin flakes show sign of degradation in 5 days. We also investigate the electrical properties of graphene/CrCl₃/graphene heterostructures.