(273h) Two-Dimensional Tmdcs Materials Synthesized By Chemical Vapor Deposition

The unique properties and potential of two-dimensional (2D) materials have garnered significant attention in the field of photodetectors. Among the various methods used for their synthesis and growth, chemical vapor deposition (CVD) stands out as a widely employed technique. Recently, we have explored different strategies to synthesize 2D materials and heterostructures through CVD process, with the aim of enhancing their functionality for advanced photodetection applications. These synthesis approaches encompass the low-temperature growth and salt-assisted selective growth of two-dimensional metal chalcogenides. Additionally, we have investigated defect engineering of 2D materials and the fabrication of mixed-dimensional heterostructures for the development of self-powered photodetectors. These endeavors have shed light on the mechanisms underlying CVD synthesis of 2D materials and their applications in advanced optoelectronics. Consequently, they have significantly contributed to our understanding of optoelectronics and the integration of 2D materials into advanced image sensing technologies.