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Polariton Dynamics in Two-Dimensional Ruddlesden–Popper Perovskites Strongly Coupled with Plasmonic Lattices

Jeong‐Eun Park, Rafael López‐Arteaga, Alexander D. Sample, Charles Cherqui, Ioannis Spanopoulos, Jun Guan, Mercouri G. Kanatzidis, George C. Schatz, Emily A. Weiss, Teri W. Odom

2022ACS Nano33 citationsDOIOpen Access PDF

Abstract

Strong coupling between light and matter can produce hybrid eigenstates known as exciton-polaritons. Although polariton dynamics are important photophysical properties, the relaxation pathways of polaritons in different coupling regimes have seen limited attention. This paper reports the dynamics of hybridized states from 2D Ruddlesden-Popper perovskites coupled to plasmonic nanoparticle lattices. The open cavity architecture of Al lattices enables the coupling strength to be modulated by varying either the lead halide perovskite film thickness or the superstrate refractive index. Both experiments and finite-difference time-domain simulations of the optical dispersion diagrams showed avoided crossings that are a signature of strong coupling. Our analytical model also elucidated the correlation between the exciton/plasmon mixing ratio and polariton coupling strength. Using fs-transient absorption spectroscopy, we found that both the upper and lower polaritons have shorter lifetimes than the excitons and that polaritons can show faster excited-state dynamics when they have access to additional energy transfer channels.

Topics & Concepts

PolaritonExcitonPlasmonMaterials scienceCondensed matter physicsExcited statePerovskite (structure)Coupling (piping)Molecular physicsPhysicsChemical physicsOptoelectronicsAtomic physicsChemistryMetallurgyCrystallographyStrong Light-Matter InteractionsThermal Radiation and Cooling TechnologiesSpectroscopy and Quantum Chemical Studies
Polariton Dynamics in Two-Dimensional Ruddlesden–Popper Perovskites Strongly Coupled with Plasmonic Lattices | Litcius