Abstract
In the application of WS(2) as a surface-enhanced Raman scattering (SERS) substrate, enhancing the charge transfer (CT) opportunity between WS(2) and analyte is an important issue for SERS efficiency. In this study, we deposited few-layer WS(2) (2-3 layers) on GaN and sapphire substrates with different bandgap characteristics to form heterojunctions using a chemical vapor deposition. Compared with sapphire, we found that using GaN as a substrate for WS(2) can effectively enhance the SERS signal, with an enhancement factor of 6.45 × 10(4) and a limit of detection of 5 × 10(-6) M for probe molecule Rhodamine 6G according to SERS measurement. Analysis of Raman, Raman mapping, atomic force microscopy, and SERS mechanism revealed that The SERS efficiency increased despite the lower quality of the WS(2) films on GaN compared to those on sapphire, as a result of the increased number of transition pathways present in the interface between WS(2) and GaN. These carrier transition pathways could increase the opportunity for CT, thus enhancing the SERS signal. The WS(2)/GaN heterostructure proposed in this study can serve as a reference for enhancing SERS efficiency.