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Article Abstract
Inverted quantum dot light-emitting diodes (QLEDs) show great promise for next-generation displays due to their compatibility with integrated circuit architectures. However, their development has been hindered by inefficient exciton utilization and charge transport imbalance. Here, we present a strategy for regulating charge-exciton dynamics through the rational design of a multifunctional hole transport layer (HTL), incorporating polyethylenimine ethoxylated (PEIE) as a protective interlayer in fully-solution-processed inverted red QLEDs. This HTL comprises poly[(9,9-dioctylfluorenyl-2,7-diyl)--(4,4'-(-(4-butylphenyl)] (TFB) doped with iridium(III) bis(2-methyldibenzo[,]quinoxaline) acetylacetonate (Ir(MDQ)(acac)) and performs three critical functions: facilitating Förster resonance energy transfer to quantum dots, enabling Coulomb-assisted hole injection, and suppressing nonradiative recombination. The optimized inverted red QLEDs at a 5 wt % Ir(MDQ)(acac) doping concentration achieved a record external quantum efficiency (EQE) of approximately 24.5% and an operational lifetime () exceeding 24,600 h at 100 cd m. This work establishes fundamental design principles for high-performance inverted QLEDs, highlighting the crucial role of charge-exciton management in advancing optoelectronic device performance.
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