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Main Authors: Abdelmagid, Ahmed Gaber, Qiao, Zhuoran, Coenegracht, Boudewijn, Yu, Gaon, Qureshi, Hassan A., Anthopoulos, Thomas D., Gasparini, Nicola, Daskalakis, Konstantinos S.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.06741
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author Abdelmagid, Ahmed Gaber
Qiao, Zhuoran
Coenegracht, Boudewijn
Yu, Gaon
Qureshi, Hassan A.
Anthopoulos, Thomas D.
Gasparini, Nicola
Daskalakis, Konstantinos S.
author_facet Abdelmagid, Ahmed Gaber
Qiao, Zhuoran
Coenegracht, Boudewijn
Yu, Gaon
Qureshi, Hassan A.
Anthopoulos, Thomas D.
Gasparini, Nicola
Daskalakis, Konstantinos S.
contents Narrowband infrared organic photodetectors are in great demand for sensing, imaging, and spectroscopy applications. However, most existing strategies for narrowband detection depend on spectral filtering either through saturable absorption, which requires active layers exceeding 500 nm, restricting the choice of materials for producing high-quality films, or cavity effects, which inherently introduce strong angular dispersion. Microcavity exciton-polariton (polariton) modes, which emerge from strong exciton-photon coupling, have recently been explored as an angular dispersion suppression strategy for organic optoelectronics. In this work, we present the first narrowband infrared polariton organic photodiode that combines angle-independent response with a record-high responsivity of 0.24 A/W at 965 nm and -2 V. This device, featuring a 100-nm-thin active layer comprising a non-fullerene acceptor, exhibits a detection mode with a full-width at half maximum of less than 30 nm and a marginal angular dispersion of under 15 nm across $\pm$$45^\circ$. This study highlights the potential of polaritons as an innovative platform for developing next-generation optoelectronic devices that achieve simultaneous enhancements in optical and electronic performance.
format Preprint
id arxiv_https___arxiv_org_abs_2412_06741
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Polaritons in non-fullerene acceptors for high responsivity angle-independent organic narrowband infrared photodiodes
Abdelmagid, Ahmed Gaber
Qiao, Zhuoran
Coenegracht, Boudewijn
Yu, Gaon
Qureshi, Hassan A.
Anthopoulos, Thomas D.
Gasparini, Nicola
Daskalakis, Konstantinos S.
Optics
Materials Science
Applied Physics
Narrowband infrared organic photodetectors are in great demand for sensing, imaging, and spectroscopy applications. However, most existing strategies for narrowband detection depend on spectral filtering either through saturable absorption, which requires active layers exceeding 500 nm, restricting the choice of materials for producing high-quality films, or cavity effects, which inherently introduce strong angular dispersion. Microcavity exciton-polariton (polariton) modes, which emerge from strong exciton-photon coupling, have recently been explored as an angular dispersion suppression strategy for organic optoelectronics. In this work, we present the first narrowband infrared polariton organic photodiode that combines angle-independent response with a record-high responsivity of 0.24 A/W at 965 nm and -2 V. This device, featuring a 100-nm-thin active layer comprising a non-fullerene acceptor, exhibits a detection mode with a full-width at half maximum of less than 30 nm and a marginal angular dispersion of under 15 nm across $\pm$$45^\circ$. This study highlights the potential of polaritons as an innovative platform for developing next-generation optoelectronic devices that achieve simultaneous enhancements in optical and electronic performance.
title Polaritons in non-fullerene acceptors for high responsivity angle-independent organic narrowband infrared photodiodes
topic Optics
Materials Science
Applied Physics
url https://arxiv.org/abs/2412.06741