Simultaneously Realizing High Efficiency and High Color Rendering Index for Hybrid White Organic Light‐Emitting Diodes by Ultra‐Thin Design of Delayed Fluorescence Sensitized Phosphorescent Layers

Abstract In consideration of energy economization and light quality, concurrently attaining high external quantum efficiency ( η ext ) and high color rendering index (CRI) is of high significance for the commercialization of hybrid white organic light‐emitting diodes (WOLEDs) but is challenging. Herein, a blue luminescent molecule (2PCz‐XT) consisting of a xanthone acceptor and two 3,6‐diphenylcarbazole donors is prepared, which exhibits strong delayed fluorescence, short delayed fluorescence lifetime, and excellent electroluminescence property, and can sensitize green, orange, and red phosphorescent emitters efficiently. By employing 2PCz‐XT as sensitizer and phosphorescent emitters as dopants, efficient two‐color and three‐color WOLED architectures with ultra‐thin phosphorescent emitting layers (EMLs) are proposed and constructed. By incorporating a thin interlayer to modulate exciton recombination zone and reduce exciton loss, high‐performance three‐color hybrid WOLEDs are finally achieved, providing a high η ext of 26.8% and a high CRI value 83 simultaneously. Further configuration optimization realizes a long device operational lifetime. These WOLEDs with ultra‐thin phosphorescent EMLs are among the state‐of‐the‐art hybrid WOLEDs in the literature, demonstrating the success and applicability of the proposed device design for developing robust hybrid WOLEDs with superb efficiency and color quality.