Optimization of Charge Transport in Fluorescent Doped TADF OLEDs

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Optimization of Charge Transport in Fluorescent Doped TADF OLEDs

We present a combined experimental/simulation analysis of a set of 4 OLEDs with 2 systematically varied guest dopants in the EML. A numerical electro-optical model is employed, demonstrating one consistent parameter set that describes both steady-state and AC characteristics of all devices. The model accounts for charge transport, trapping, polar layers, and excitonic loss processes. These are inducing an efficiency roll-off that can be correlated with the shape of the emission zone and the guest dopant concentrations. Furthermore, starting from the resulting parameter set, we show routes for optimized TADF OLDEs with a reduced roll-off.

Check the full discussion here: https://www.fluxim.com/tadf-oled-optimization-excitons

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Hyperfluorescent OLED Simulation with Setfos

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Hyperfluorescent OLED Simulation with Setfos

Fluorescence‐based organic light‐emitting diodes (OLEDs) using thermally activated delayed fluorescence (TADF) have increasingly attracted attention in research and industry. Even though the experimental realization of this concept has demonstrated promising external quantum efficiencies, the full potential of this approach has not yet been assessed. To this end, a comprehensive electro‐optical device model accounting for the full exciton dynamics, including triplet harvesting and exciton quenching is presented.

Check the full discussion here: https://www.fluxim.com/tadf-oled-simulation

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