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handle: 10023/19066
AbstractA new design strategy is introduced to address a persistent weakness with resonance thermally activated delayed fluorescence (R‐TADF) emitters to reduce aggregation‐caused quenching effects, which are identified as one of the key limiting factors. The emitter Mes3DiKTa shows an improved photoluminescence quantum yield of 80% compared to 75% for the reference DiKTa in 3.5 wt% 1,3‐bis(N‐carbazolyl)benzene. Importantly, emission from aggregates, even at high doping concentrations, is eliminated and aggregation‐caused quenching is strongly curtailed. For both molecules, triplets are almost quantitatively upconverted into singlets in electroluminescence, despite a significant (≈0.21 eV) singlet‐triplet energy gap (ΔEST), in line with correlated quantum‐chemical calculations, and a slow reverse intersystem crossing. It is speculated that the lattice stiffness responsible for the narrow fluorescence and phosphorescence emission spectra also protects the triplets against nonradiative decay. An improved maximum external quantum efficiencies (EQEmax) of 21.1% for Mes3DIKTa compared to the parent DiKTa (14.7%) and, importantly, reduced efficiency roll‐off compared to literature resonance TADF organic light‐emitting diodes (OLEDs), shows the promise of this design strategy for future design of R‐TADF emitters for OLED applications.
Multiresonance thermally activated delayed fluorescence, 500, DAS, Organic light emitting diodes, SCS-CC2 approach, QD Chemistry, 530, organic light emitting diodes, multiresonance thermally activated delayed fluorescence, QD, Blue emission, blue emission
Multiresonance thermally activated delayed fluorescence, 500, DAS, Organic light emitting diodes, SCS-CC2 approach, QD Chemistry, 530, organic light emitting diodes, multiresonance thermally activated delayed fluorescence, QD, Blue emission, blue emission
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