Journal
ADVANCED OPTICAL MATERIALS
Volume 9, Issue 17, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adom.202100158
Keywords
excitonic coupling; graphene; J-aggregates; narrowband response
Categories
Funding
- Research Grants Council of Hong Kong [AoE/P-02/12, 14203018, 14203318, N_CUHK438/18]
- CUHK Group Research Scheme
- CUHK Impact Postdoctoral Fellowship
- Innovation and Technology Commission, Hong Kong SAR Government [ITS/390/18]
- National Science Foundation of China [6181101021]
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An ultra-narrow bandwidth photodetector without a bandpass filter has been demonstrated, utilizing a combination of a J-aggregate organic crystal and graphene. This design achieves ultra-narrow spectral response and high responsivity, providing a new method for fabricating highly responsive narrowband photodetectors.
Narrowband photodetection has great significance for full-color imaging and machine vision. The most common way to realize narrowband detection is to combine a bandpass filter with a broadband photodetector. Herein, an ultra-narrow bandwidth photodetector without bandpass filter based on the combination of a monolayer J-aggregate organic crystal with graphene is demonstrated. The monolayer PTCDI-C-13 J-aggregate organic crystal grown on h-BN substrate, which exhibits an absorption bandwidth of 10 nm, works as a light-absorption material for narrowband photodetection; and graphene provides a conducting channel for photo-induced carriers from the monolayer J-aggregate film. Thanks to the ultra-narrowband absorption of the monolayer PTCDI-C-13 J-aggregate organic crystal and the high mobility of graphene, an ultra-narrow spectral response of approximate to 13 nm and high responsivity of 1000 A W-1 can be achieved in photoconductor mode. This design concept is generic for other J-aggregates with different absorption windows and provides a new method to fabricate highly responsive narrowband photodetector.
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