Simultaneous and Significant Improvements in Efficiency and Stability of Deep‐Blue Organic Light Emitting Diodes through Friedel‐Crafts Arylmethylation of a Fluorophore

Abstract The molecular design of purely organic fluorophores for highly efficient and stable deep‐blue organic light‐emitting diodes (OLEDs) is still a challenge. Excellent performances in terms of Commission Internationale de l'Eclairage (CIE) coordinates, external quantum efficiency (EQE), brightness and lifespan, often cannot be achieved simultaneously in one deep‐blue OLED. Herein, a novel carbazole‐based thermally activated delayed fluorescence emitter DPFCz ‐ TRZ is designed and synthesized through Friedel‐Crafts arylmethylation of Cz ‐ TRZ . Compared with the parent compound Cz ‐ TRZ , the OLED based on DPFCz ‐ TRZ exhibits significantly improved performances with a maximum EQE of 15.5 % and brightness beyond 16000 cd m −2 , while retaining similar deep‐blue emission with a CIE coordinate of (0.15, 0.10), an electroluminescence (EL) maximum of λ =445 nm and full width at half maximum (FWHM) of 65 nm. Additionally, the device also shows a respectable lifetime (LT50, time to 50 % of initial luminance) of 78 h at 500 cd m −2 , corresponding to a LT50 of 1304 h at 100 cd m −2 . Impressively, a record high EQE of 5.2 % can be obtained at a very high luminance of 10000 cd m −2 . This work demonstrates the first report of simultaneous achievement over 15 % EQE and 1000 h LT50 (100 cd m −2 ) in deep‐blue purely organic electroluminescence devices with a coordinate of (≤0.15, ≤0.10) and maximum brightness beyond 16000 cd m −2 .