MoS2 with Stable Photoluminescence Enhancement under Stretching via Plasmonic Surface Lattice Resonance

In this study, by combining a large-area MoS2 monolayer with silver plasmonic nanostructures in a deformable polydimethylsiloxane substrate, we theoretically and experimentally studied the photoluminescence (PL) enhancement of MoS2 by surface lattice resonance (SLR) modes of different silver plasmonic nanostructures. We also observed the stable PL enhancement of MoS2 by silver nanodisc arrays under differently applied stretching strains, caused by the mechanical holding effect of the MoS2 monolayer. We believe the results presented herein can guarantee the possibility of stably enhancing the light emission of transition metal dichalcogenides using SLR modes in a deformable platform.

Automated summary

By combining a large-area MoS2 monolayer with silver plasmonic nanostructures in a deformable polydimethylsiloxane substrate, this study investigates the photoluminescence enhancement of MoS2 by surface lattice resonance modes of different silver plasmonic nanostructures. The stable photoluminescence enhancement of MoS2 by silver nanodisc arrays under varying stretching strains is observed, attributed to the mechanical holding effect of the MoS2 monolayer. The results suggest the possibility of stably enhancing the light emission of transition metal dichalcogenides using surface lattice resonance modes in a deformable platform.