Second Harmonic Generation in van der Waals Heterostructure of Centrosymmetric ReS<sub>2</sub> and Graphene
Jing Wang, Mingwen Zhang, Nannan Han, Zheng‐Dong Luo, Xiaoqing Chen, Yan Liu, Jianlin Zhao, Xuetao Gan
Abstract
Abstract Van der Waals (vdW) heterostructures of two‐dimensional (2D) materials promise exotic properties beyond the reach of existing material systems and open unprecedented opportunities for device applications. Here, it is demonstrated that vdW stacking of centrosymmetric ReS 2 and graphene into heterostructure could induce strong second harmonic generation (SHG), though there is not any SHG from the individual ReS 2 or graphene. It could be attributed to the interfacial charge transfer in the heterostructure. With the distorted 1T crystal structure of ReS 2 and electrostatic screening effect, the charge transfer gives rise to non‐uniform charge distribution across the ReS 2 's atomic layers, resulting in the broken centrosymmetry for the second‐order hyperpolarizability. At the specific pump wavelength of 1550 nm, the strength of the induced SHG in a trilayer ReS 2 /graphene vdW heterostructure is approximately twice of that from a monolayer MoS 2 . This work reveals vdW stacking is a simple and efficient method for inducing SHG in 2D materials with centrosymmetry, which could be considered as another unique attribute of 2D materials. It also indicates that SHG spectroscopy is a valid technique for probing charge transfer and distribution in heterostructures of 2D materials.