Strong visible absorption of light in semiconducting two-dimensional transition-metal dichalcogenides (TMDCs) is essential for improving the photocarrier extraction efficiency in optoelectronic devices. However, their ultrathin thickness leads to limited optical absorption. To accomplish adequate light absorption, a dielectric-based Silicon (Si) Huygens’ metasurface (HMS) based on degenerate critical coupling (DCC) can realize superimposed modes enhancement effects on WS₂.
In this study, we design and fabricate Si HMS to enhance the absorption of WS₂. The enhancement is as high as 0.56 in simulation. Meanwhile, we demonstrate that small monolayer WS₂ fragment is successfully transferred to the metasurface utilizing poly (propylene) carbonate (PPC) films.
Our observations undeniably establish the groundwork for a material platform enabling high-efficiency photodetection, energy harvesting, and thermal emission based on TMDCs.