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Efficient and readily tuneable near-infrared photodetection up to 1500 nm enabled by thiadiazoloquinoxaline-based push–pull type conjugated polymers

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Abstract

The majority of bulk heterojunction near-infrared organic photodetectors (NIR-OPDs) have an absorption window up to 1000 nm (1.2 eV) due to the scarcity of suitable NIR-absorbing electron donor polymers and the challenging energy alignment and/or blend miscibility with electron acceptor materials, strongly complicating to move beyond this wavelength range. Nonetheless, extension of the detectivity further into the NIR is important for applications such as bio-imaging, pulse oximetry and industrial sorting. Herein, we illustrate that [1,2,5]thiadiazolo[3,4-g]quinoxaline (TQ) is an excellent building block for the development of ultra-low bandgap copolymers to achieve tuneable NIR photodetection beyond 1000 nm. Three TQ monomers with different side chain patterns are synthesized and combined with carefully selected electron rich subunits to yield push–pull type copolymers with an optical gap ranging from 1.14 to 0.87 eV. The highest gap material affords the best OPD performance, with a peak specific detectivity of 3 × 1011 Jones at 960 nm (at −2 V bias). The other polymers show <1 eV optical gaps and specific detectivities exceeding 1010 Jones up to 1400 nm (at −2 V bias). These values are among the highest reported so far for NIR-OPDs in the wavelength range beyond 1000 nm.

Graphical abstract: Efficient and readily tuneable near-infrared photodetection up to 1500 nm enabled by thiadiazoloquinoxaline-based push–pull type conjugated polymers

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Supplementary files

Article information


Submitted
20 Mar 2020
Accepted
30 Jun 2020
First published
30 Jun 2020

J. Mater. Chem. C, 2020, Advance Article
Article type
Paper

Efficient and readily tuneable near-infrared photodetection up to 1500 nm enabled by thiadiazoloquinoxaline-based push–pull type conjugated polymers

F. Verstraeten, S. Gielen, P. Verstappen, J. Raymakers, H. Penxten, L. Lutsen, K. Vandewal and W. Maes, J. Mater. Chem. C, 2020, Advance Article , DOI: 10.1039/D0TC01435D

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