Issue 31, 2022

Hot-exciton harvesting via through-space single-molecule based white-light emission and optical waveguides

Abstract

Through-space donor–alkyl bridge–acceptor (D–σ–A) luminogens are developed as new organic single-molecule white light emitters (OSMWLEs) involving multiple higher lying singlet (Sn) and triplet (Tm) states (hot-excitons). Experimental and theoretical results confirm the origin of white light emission due to the co-existence of prompt fluorescence from locally excited states, thermally activated delayed fluorescence (TADF), and fast/slow dual phosphorescence color mixing simultaneously. Notably, the fast phosphorescence was observed due to trace amounts of isomeric impurities from commercial carbazole, while H-/J-aggregation resulted in slow phosphorescence. Crystal structure-packing-property analysis revealed that the alkyl chain length induced supramolecular self-assembly greatly influenced the solid-state optical properties. Remarkably, the 1D-microrod crystals of OSMWLEs demonstrated the first examples of triplet harvesting waveguides by self-guiding the generated phosphorescence through light propagation along their longitudinal axis. This work thus highlights an uncommon design strategy to achieve multi-functional OSMWLEs with in-depth mechanistic insights and optical waveguiding applications making them a potentially new class of white emissive materials.

Graphical abstract: Hot-exciton harvesting via through-space single-molecule based white-light emission and optical waveguides

Supplementary files

Article information

Article type
Edge Article
Submitted
16 Apr 2022
Accepted
02 Jul 2022
First published
04 Jul 2022
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2022,13, 9004-9015

Hot-exciton harvesting via through-space single-molecule based white-light emission and optical waveguides

D. Barman, M. Annadhasan, R. Chandrasekar and P. K. Iyer, Chem. Sci., 2022, 13, 9004 DOI: 10.1039/D2SC02172B

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