The design of an extended multiple resonance TADF emitter based on a polycyclic amine/carbonyl system
Materials Chemistry Frontiers, 2020•pubs.rsc.org
The development of multiple resonance thermally activated delayed fluorescence (MR-
TADF) materials possessing narrow emission spectra has attracted significant attention as
emitters for high colour purity organic light emitting diodes (OLEDs). In this work, a simple
design strategy is introduced to construct an MR-TADF emitter, DDiKTa, through
dimerization of the known MR-TADF emitter DiKTa. This design permits concentration
quenching to be largely suppressed, which is a known weakness of previously reported MR …
TADF) materials possessing narrow emission spectra has attracted significant attention as
emitters for high colour purity organic light emitting diodes (OLEDs). In this work, a simple
design strategy is introduced to construct an MR-TADF emitter, DDiKTa, through
dimerization of the known MR-TADF emitter DiKTa. This design permits concentration
quenching to be largely suppressed, which is a known weakness of previously reported MR …
The development of multiple resonance thermally activated delayed fluorescence (MR-TADF) materials possessing narrow emission spectra has attracted significant attention as emitters for high colour purity organic light emitting diodes (OLEDs). In this work, a simple design strategy is introduced to construct an MR-TADF emitter, DDiKTa, through dimerization of the known MR-TADF emitter DiKTa. This design permits concentration quenching to be largely suppressed, which is a known weakness of previously reported MR-TADF emitters. OLEDs based on DDiKTa show an EQEmax of 19% at a doping concentration of 9 wt%. The electroluminescence spectrum is red-shifted into the green, producing a rare example of a green-emitting MR-TADF OLED.
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