Microcavity-like exciton-polaritons can be the primary photoexcitation in bare organic semiconductors

Microcavity-like exciton-polaritons can be the primary photoexcitation in bare organic semiconductors

Exciton-polaritons are typically formed in organic systems when the molecules are confined between metallic or dielectric mirrors. Here, the authors reveal that interactions between excitons and moderately confined photonic states within the bare organic film can also lead to polariton formation, ma...

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Autores principales: Raj Pandya, Richard Y. S. Chen, Qifei Gu, Jooyoung Sung, Christoph Schnedermann, Oluwafemi S. Ojambati, Rohit Chikkaraddy, Jeffrey Gorman, Gianni Jacucci, Olimpia D. Onelli, Tom Willhammar, Duncan N. Johnstone, Sean M. Collins, Paul A. Midgley, Florian Auras, Tomi Baikie, Rahul Jayaprakash, Fabrice Mathevet, Richard Soucek, Matthew Du, Antonios M. Alvertis, Arjun Ashoka, Silvia Vignolini, David G. Lidzey, Jeremy J. Baumberg, Richard H. Friend, Thierry Barisien, Laurent Legrand, Alex W. Chin, Joel Yuen-Zhou, Semion K. Saikin, Philipp Kukura, Andrew J. Musser, Akshay Rao
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Lenguaje:EN
Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/3313549553884d36aa1ce52d4335a1ac
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spelling oai:doaj.org-article:3313549553884d36aa1ce52d4335a1ac2021-11-14T12:35:35ZMicrocavity-like exciton-polaritons can be the primary photoexcitation in bare organic semiconductors10.1038/s41467-021-26617-w2041-1723https://doaj.org/article/3313549553884d36aa1ce52d4335a1ac2021-11-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-26617-whttps://doaj.org/toc/2041-1723Exciton-polaritons are typically formed in organic systems when the molecules are confined between metallic or dielectric mirrors. Here, the authors reveal that interactions between excitons and moderately confined photonic states within the bare organic film can also lead to polariton formation, making them the primary photoexcitation.Raj PandyaRichard Y. S. ChenQifei GuJooyoung SungChristoph SchnedermannOluwafemi S. OjambatiRohit ChikkaraddyJeffrey GormanGianni JacucciOlimpia D. OnelliTom WillhammarDuncan N. JohnstoneSean M. CollinsPaul A. MidgleyFlorian AurasTomi BaikieRahul JayaprakashFabrice MathevetRichard SoucekMatthew DuAntonios M. AlvertisArjun AshokaSilvia VignoliniDavid G. LidzeyJeremy J. BaumbergRichard H. FriendThierry BarisienLaurent LegrandAlex W. ChinJoel Yuen-ZhouSemion K. SaikinPhilipp KukuraAndrew J. MusserAkshay RaoNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-11 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Raj Pandya
Richard Y. S. Chen
Qifei Gu
Jooyoung Sung
Christoph Schnedermann
Oluwafemi S. Ojambati
Rohit Chikkaraddy
Jeffrey Gorman
Gianni Jacucci
Olimpia D. Onelli
Tom Willhammar
Duncan N. Johnstone
Sean M. Collins
Paul A. Midgley
Florian Auras
Tomi Baikie
Rahul Jayaprakash
Fabrice Mathevet
Richard Soucek
Matthew Du
Antonios M. Alvertis
Arjun Ashoka
Silvia Vignolini
David G. Lidzey
Jeremy J. Baumberg
Richard H. Friend
Thierry Barisien
Laurent Legrand
Alex W. Chin
Joel Yuen-Zhou
Semion K. Saikin
Philipp Kukura
Andrew J. Musser
Akshay Rao
Microcavity-like exciton-polaritons can be the primary photoexcitation in bare organic semiconductors
description Exciton-polaritons are typically formed in organic systems when the molecules are confined between metallic or dielectric mirrors. Here, the authors reveal that interactions between excitons and moderately confined photonic states within the bare organic film can also lead to polariton formation, making them the primary photoexcitation.
format article
author Raj Pandya
Richard Y. S. Chen
Qifei Gu
Jooyoung Sung
Christoph Schnedermann
Oluwafemi S. Ojambati
Rohit Chikkaraddy
Jeffrey Gorman
Gianni Jacucci
Olimpia D. Onelli
Tom Willhammar
Duncan N. Johnstone
Sean M. Collins
Paul A. Midgley
Florian Auras
Tomi Baikie
Rahul Jayaprakash
Fabrice Mathevet
Richard Soucek
Matthew Du
Antonios M. Alvertis
Arjun Ashoka
Silvia Vignolini
David G. Lidzey
Jeremy J. Baumberg
Richard H. Friend
Thierry Barisien
Laurent Legrand
Alex W. Chin
Joel Yuen-Zhou
Semion K. Saikin
Philipp Kukura
Andrew J. Musser
Akshay Rao
author_facet Raj Pandya
Richard Y. S. Chen
Qifei Gu
Jooyoung Sung
Christoph Schnedermann
Oluwafemi S. Ojambati
Rohit Chikkaraddy
Jeffrey Gorman
Gianni Jacucci
Olimpia D. Onelli
Tom Willhammar
Duncan N. Johnstone
Sean M. Collins
Paul A. Midgley
Florian Auras
Tomi Baikie
Rahul Jayaprakash
Fabrice Mathevet
Richard Soucek
Matthew Du
Antonios M. Alvertis
Arjun Ashoka
Silvia Vignolini
David G. Lidzey
Jeremy J. Baumberg
Richard H. Friend
Thierry Barisien
Laurent Legrand
Alex W. Chin
Joel Yuen-Zhou
Semion K. Saikin
Philipp Kukura
Andrew J. Musser
Akshay Rao
author_sort Raj Pandya
title Microcavity-like exciton-polaritons can be the primary photoexcitation in bare organic semiconductors
title_short Microcavity-like exciton-polaritons can be the primary photoexcitation in bare organic semiconductors
title_full Microcavity-like exciton-polaritons can be the primary photoexcitation in bare organic semiconductors
title_fullStr Microcavity-like exciton-polaritons can be the primary photoexcitation in bare organic semiconductors
title_full_unstemmed Microcavity-like exciton-polaritons can be the primary photoexcitation in bare organic semiconductors
title_sort microcavity-like exciton-polaritons can be the primary photoexcitation in bare organic semiconductors
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/3313549553884d36aa1ce52d4335a1ac
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