Strong exciton-plasmon coupling in two-dimensional transition metal dichalcogenides

Aaron Rose; Jeremy R Dunklin; Hanyu Zhang; Juan M. Merlo; Michael J Naughton; Jao van de Lagemaat

Strong exciton-plasmon coupling in two-dimensional transition metal dichalcogenides

ORAL

Abstract

Two-dimensional transition metal dichalcogenides (2-D TMDs) show promise as photocatalytic materials for water splitting due to their strong light-matter interactions and favorable band gaps and band alignments. Incorporation of plasmonics into these systems is expected to enhance performance due to a variety of effects including large exciton-plasmon coupling.

Here, we show that strong exciton-plasmon coupling is possible in many 2-D TMD systems as evidenced by Rabi splitting in modeled photonic dispersion of thin films of 2-D TMDs coupled to tunable surface plasmons. The results show coupling in every metal-TMD combination between the metals Au, Al, Ag, and Cu and the 2-D TMDs MoS₂, MoSe₂, WS₂, and WSe₂. Finally, we discuss current experimental progress on such systems.

^*Funding was provided by Office of Science, Office of Basic Energy Sciences, Division of Chemical Sciences, Geosciences, and Biosciences, Solar Photochemistry Program.

March 7, 2019, 1:15 PM – March 7, 2019, 1:27 PM

Presenters

Aaron Rose
- Chemistry & Nanoscience Center, National Renewable Energy Laboratory

Authors

Aaron Rose
- Chemistry & Nanoscience Center, National Renewable Energy Laboratory
Jeremy R Dunklin
- Chemistry & Nanoscience Center, National Renewable Energy Laboratory
Hanyu Zhang
- Chemistry & Nanoscience Center, National Renewable Energy Laboratory
Juan M. Merlo
- Physics, Boston College
- Boston College
Michael J Naughton
- Physics, Boston College
- Department of Physics, Boston College
- Boston College
- Boston College, Chestnut Hill, MA 02135
Jao van de Lagemaat
- Chemistry & Nanoscience Center, National Renewable Energy Laboratory