Correlation between materials and band‐selective detection in organic photodetectors based on bulk heterojunction - Archive ouverte HAL
Journal Articles Journal of Applied Polymer Science Year : 2024

Correlation between materials and band‐selective detection in organic photodetectors based on bulk heterojunction

Quentin Eynaud
Anass Khodr
Mohamed El Amine Kramdi
Gilles Quéléver
Olivier Margeat
Jörg Ackermann

Abstract

For wavelength‐selective photodetection or color discrimination, organic photodetectors (OPDs) can provide significant advantages as solution processability, chemical versatility and functionality. To eliminate the need for commonly used filters, the development of a narrowing approach that simultaneously achieves a selective detection range of less than 50 nm bandwidth and a spectral response of ~20% as efficiency at a required wavelength, remains a real challenge. Herein, different donor polymers and small acceptor molecules have been involved in bulk heterojunctions (BHJs) at 1:1 weight ratio as photoactive layers in specific OPDs. Indeed, the mechanism of charge collection in these OPDs is based on the charge collection narrowing (CCN) principle. In this approach, the detection window can be selected to match the absorption onset of the junction materials used in the BHJ layer. Although essentially based on very thick layers, we are focusing here on OPDs with layer thicknesses of less than 2 μm and post‐deposition annealing temperatures not in excess of 100°C.
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hal-04519242 , version 1 (01-04-2024)

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Quentin Eynaud, Anass Khodr, Mohamed El Amine Kramdi, Gilles Quéléver, Olivier Margeat, et al.. Correlation between materials and band‐selective detection in organic photodetectors based on bulk heterojunction. Journal of Applied Polymer Science, 2024, ⟨10.1002/app.55481⟩. ⟨hal-04519242⟩
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