Direct evidence of ultrafast energy delocalization between optically hybridized J- aggregates in a strongly coupled microcavity
Direct evidence of ultrafast energy delocalization between optically hybridized J- aggregates in a strongly coupled microcavity
Strong coupling between light and matter in a microcavity can produce quasi-particle states termed cavity-polaritons. In cavity architectures containing more than one excitonic species, the photon mode can simultaneously couple to the different excitons, generating new ʻhybrid-polaritonʼ states. It is demonstrated that such hybrid polariton states can energetically connect different molecular species, even when their intermolecular distance is much larger than the Förster transfer radius. Here, this mechanism is unveiled and observed in the time domain energy delocalization in a strongly coupled cavity containing two layers of donor and acceptor molecules, separated by an inert spacer layer of 2 µm thickness. 2D electronic spectroscopy is used, a technique that provides simultaneously high spectral and temporal resolution, to probe the dynamics of the energy flow processes following ultra-fast excitation. It shows that energy is almost instantaneously delocalized among the polariton states, providing a direct connection between very highly separated donor and acceptor molecules. The results are of potential significance for light-harvesting devices, optoelectronics, and bio-photonic systems.
2D Spectroscopy, energy delocalization, organic microcavities, polariton states, strong coupling
Russo, Mattia
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Georgiou, Kyriacos
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Genco, Armando
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De Liberato, Simone
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Cerullo, Giulio
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Lidzey, David G.
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Othonos, Andreas
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Maiuri, Margherita
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Virgili, Tersilla
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2024
Russo, Mattia
c916eb6b-0509-4c4c-9e1b-43a2c7a9f4c5
Georgiou, Kyriacos
c93188ef-80fb-4b7c-9069-99b606d26211
Genco, Armando
0ac3269b-ad48-45a5-bcc8-552749474fd7
De Liberato, Simone
5942e45f-3115-4027-8653-a82667ed8473
Cerullo, Giulio
690cf403-3510-4115-bd9f-f3fdf5cf9a69
Lidzey, David G.
4c1f0189-29db-482f-896b-b90f28909baf
Othonos, Andreas
585c14a3-baba-455c-ac11-65c53e02621f
Maiuri, Margherita
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Virgili, Tersilla
95b4528d-ea9c-48ae-ad1a-ca908273178f
Russo, Mattia, Georgiou, Kyriacos, Genco, Armando, De Liberato, Simone, Cerullo, Giulio, Lidzey, David G., Othonos, Andreas, Maiuri, Margherita and Virgili, Tersilla
(2024)
Direct evidence of ultrafast energy delocalization between optically hybridized J- aggregates in a strongly coupled microcavity.
Advanced Optical Materials, 12 (25), [2400821].
(doi:10.1002/adom.202400821).
Abstract
Strong coupling between light and matter in a microcavity can produce quasi-particle states termed cavity-polaritons. In cavity architectures containing more than one excitonic species, the photon mode can simultaneously couple to the different excitons, generating new ʻhybrid-polaritonʼ states. It is demonstrated that such hybrid polariton states can energetically connect different molecular species, even when their intermolecular distance is much larger than the Förster transfer radius. Here, this mechanism is unveiled and observed in the time domain energy delocalization in a strongly coupled cavity containing two layers of donor and acceptor molecules, separated by an inert spacer layer of 2 µm thickness. 2D electronic spectroscopy is used, a technique that provides simultaneously high spectral and temporal resolution, to probe the dynamics of the energy flow processes following ultra-fast excitation. It shows that energy is almost instantaneously delocalized among the polariton states, providing a direct connection between very highly separated donor and acceptor molecules. The results are of potential significance for light-harvesting devices, optoelectronics, and bio-photonic systems.
Text
adom.202400821_R1
- Accepted Manuscript
More information
Accepted/In Press date: 2024
e-pub ahead of print date: 10 June 2024
Published date: 2024
Keywords:
2D Spectroscopy, energy delocalization, organic microcavities, polariton states, strong coupling
Identifiers
Local EPrints ID: 491343
URI: http://eprints.soton.ac.uk/id/eprint/491343
ISSN: 2195-1071
PURE UUID: 93327a68-98a2-41f8-bc1e-36a1194d1554
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Date deposited: 20 Jun 2024 16:42
Last modified: 10 Sep 2024 01:45
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Contributors
Author:
Mattia Russo
Author:
Kyriacos Georgiou
Author:
Armando Genco
Author:
Giulio Cerullo
Author:
David G. Lidzey
Author:
Andreas Othonos
Author:
Margherita Maiuri
Author:
Tersilla Virgili
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