C^N^N^O vs O^N^N^O coordination
A new Open Access paper in Inorganic Chemistry about a rare type of C^N^N^O platinum(II) complexes is now out. You can check it out here.
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TADF invariant of host polarity
Check out our newest publication in Angewandte Chemie where we demonstrate a really cool behaviour of donor-acceptor Thermally Activated Delayed Fluorescence (TADF) emitters. We also debunk a few misconceptions about TADF that can be clearly explained in the light of our results. You can read our paper here.
Electroluminescence beyond 940 nm
We are pleased to present our new paper in Chemical Science where we demonstrate electro- and photoluminescence beyond 940 nm from thin films of platinum(II) complexes. Check out full article here.
Excimers or aggregates?
We’ve cracked excited states in platinum(II) complexes: stop focusing on excimers and look for aggregates in OLEDs! Plus cool OLEDs with a 1 nm thick light-emitting layer! Check out our new paper here.
Triplet-triplet annihilation in liquid crystals
We have demonstrated triplet-triplet annihilation (TTA) in films of liquid crystal materials. The luminescent liquid crystal gives the best non-doped OLED efficiency reported, thanks to the TTA. Congratulations to Larissa Gomes Franca, the lead author of the work and great thanks to everyone who contributed to this work. You can read this paper here.
Simple synthesis of TADF systems with two different donors
This work is a result of synthetic / photophysics collaboration with the groups of Professor Pierre Audebert and Professor Fabien Miomandre. We congratulate all authors, but especially Dr Antonio Maggiore, the lead author of the work. You can read the paper here.
The strength of Homoconjugation
Check out our new paper on the effects of Homoconjugation in Thermally Activated Delayed Fluorescence (TADF) luminophores which has now been published in Journal of Materials Chemistry C. The work was prepared in collaboration with Northumbria University, University of Cambridge and Loughborough University.
Developments in red platinum(II) TADF
We are making a significant progress in developing new platinum-based Thermally Activated Delayed Fluorescence dyes for a future generation of OLEDs. Our recent paper in Journal of Materials Chemistry C emerged from a collaboration between Durham University and Northumbria University and features a novel, improved strategy for platinum-based TADF complexes.