Synthesis and Spectral Characteristics Investigation of the 2D-2D vdWs Heterostructure Materials

Due to the attractive optical and electrical properties, van der Waals (vdWs) heterostructures constructed from the different two-dimensional materials have received widespread attention. Here, MoS2/h-BN, MoS2/graphene, WS2/h-BN, and WS2/graphene vdWs heterostructures are successfully prepared by the CVD and wet transfer methods. The distribution, Raman and photoluminescence (PL) spectra of the above prepared heterostructure samples can be respectively observed and tested by optical microscopy and Raman spectrometry, which can be used to study their growth mechanisms and optical properties. Meanwhile, the uniformity and composition distribution of heterostructure films can also be analyzed by the Raman and PL spectra. The internal mechanism of Raman and PL spectral changes can be explained by comparing and analyzing the PL and Raman spectra of the junction and non-junction regions between 2D-2D vdWs heterostructure materials, and the effect of laser power on the optical properties of heterostructure materials can also be analyzed. These heterostructure materials exhibit novel and unique optical characteristics at the stacking or junction, which can provide a reliable experimental basis for the preparation of suitable TMDs heterostructure materials with excellent performance.

Automated summary

Research on van der Waals heterostructures constructed from different two-dimensional materials, where the distribution, Raman and photoluminescence spectra are analyzed by optical microscopy and Raman spectrometry to study growth mechanisms and optical properties. The study also explains the internal mechanisms of Raman and PL spectral changes through analyzing junction and non-junction regions between 2D-2D vdWs heterostructure materials.