Author
Listed:
- Tudor H. Thomas
(University of Cambridge)
- David J. Harkin
(University of Cambridge)
- Alexander J. Gillett
(University of Cambridge)
- Vincent Lemaur
(Université de Mons)
- Mark Nikolka
(University of Cambridge)
- Aditya Sadhanala
(University of Cambridge)
- Johannes M. Richter
(University of Cambridge)
- John Armitage
(University of Cambridge)
- Hu Chen
(KAUST Solar Center (KSC), KAUST)
- Iain McCulloch
(KAUST Solar Center (KSC), KAUST)
- S. Matthew Menke
(University of Cambridge)
- Yoann Olivier
(Université de Mons)
- David Beljonne
(Université de Mons)
- Henning Sirringhaus
(University of Cambridge)
Abstract
Efficient conjugated polymer optoelectronic devices benefit from concomitantly high luminescence and high charge carrier mobility. This is difficult to achieve, as interchain interactions, which are needed to ensure efficient charge transport, tend also to reduce radiative recombination and lead to solid-state quenching effects. Many studies detail strategies for reducing these interactions to increase luminescence, or modifying chain packing motifs to improve percolation charge transport; however achieving these properties together has proved elusive. Here, we show that properly designed amorphous donor-alt-acceptor conjugated polymers can circumvent this problem; combining a tuneable energy gap, fast radiative recombination rates and luminescence quantum efficiencies >15% with high carrier mobilities exceeding 2.4 cm2/Vs. We use photoluminescence from exciton states pinned to close-crossing points to study the interplay between mobility and luminescence. These materials show promise towards realising advanced optoelectronic devices based on conjugated polymers, including electrically-driven polymer lasers.
Suggested Citation
Tudor H. Thomas & David J. Harkin & Alexander J. Gillett & Vincent Lemaur & Mark Nikolka & Aditya Sadhanala & Johannes M. Richter & John Armitage & Hu Chen & Iain McCulloch & S. Matthew Menke & Yoann , 2019.
"Short contacts between chains enhancing luminescence quantum yields and carrier mobilities in conjugated copolymers,"
Nature Communications, Nature, vol. 10(1), pages 1-10, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-10277-y
DOI: 10.1038/s41467-019-10277-y
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