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Electron-donating amine-interlayer induced n-type doping of polymer:nonfullerene blends for efficient narrowband near-infrared photo-detection

Quan Liu, Stefan Zeiske, Xueshi Jiang, Derese Desta, Sigurd Mertens, Sam Gielen, Rachith Shanivarasanthe Nithyananda Kumar, H.‐G. Boyen, Ardalan Armin, Koen Vandewal

2022Nature Communications55 citationsDOIOpen Access PDF

Abstract

Abstract Inherently narrowband near-infrared organic photodetectors are highly desired for many applications, including biological imaging and surveillance. However, they suffer from a low photon-to-charge conversion efficiencies and utilize spectral narrowing techniques which strongly rely on the used material or on a nano-photonic device architecture. Here, we demonstrate a general and facile approach towards wavelength-selective near-infrared phtotodetection through intentionally n-doping 500–600 nm-thick nonfullerene blends. We show that an electron-donating amine-interlayer can induce n-doping, resulting in a localized electric field near the anode and selective collection of photo-generated carriers in this region. As only weakly absorbed photons reach this region, the devices have a narrowband response at wavelengths close to the absorption onset of the blends with a high spectral rejection ratio. These spectrally selective photodetectors exhibit zero-bias external quantum efficiencies of ~20–30% at wavelengths of 900–1100 nm, with a full-width-at-half-maximum of ≤50 nm, as well as detectivities of >10 12 Jones.

Topics & Concepts

NarrowbandMaterials scienceOptoelectronicsDopingPhotodetectorInfraredNear-infrared spectroscopyAbsorption (acoustics)PhotonicsQuantum efficiencyPhotonWavelengthElectronOpticsPhysicsComposite materialQuantum mechanicsOrganic Electronics and PhotovoltaicsConducting polymers and applicationsAnalytical Chemistry and Sensors
Electron-donating amine-interlayer induced n-type doping of polymer:nonfullerene blends for efficient narrowband near-infrared photo-detection | Litcius