学术文献库

We report that chemical vapor deposition (CVD) grown bilayer and thicker-layered MoS2 are structurally and optically stable under ambient conditions, in comparison to CVD-grown monolayer MoS2 and other transition metal dichalcogenides (TMDs) that have been reported to degrade under the same conditions, hindering their many potential applications. We present atomic force microscopy (AFM), and Raman and photoluminescence (PL) spectroscopy measurements of as-grown and preheated multilayer MoS2 after exposure to ambient conditions for periods of up to 2 years. The AFM images show that, under ambient conditions, as-grown and preheated bilayer and thicker-layered MoS2 films do not exhibit the growth of dendrites that is characteristic of monolayer degradation. Dendrites are observed to stop at the monolayer-bilayer boundary. Raman and PL spectra of the aged bilayer and thicker-layered films are comparable to those of as-grown films. The greater stability of bilayers and thicker layers supports a previously reported mechanism for monolayer degradation involving Förster resonance energy transfer. Our results show that bilayer and thicker-layered TMDs are promising materials for applications requiring ambient stability.