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Article Abstract
Circularly polarized organic light-emitting diodes (CP-OLEDs) exhibiting circularly polarized electroluminescence (CP-EL) properties hold significant promise for future display technologies. However, enhancing the electroluminescence dissymmetry factor ( ) remains a substantial challenge. Herein, ultrastrong CP-EL emissions are achieved using a liquid crystal (LC)-functionalization strategy under the regulation of chiral co-assembly. The LC molecule 3CzPCH containing carbazole and mesogenic units could be readily synthesized using Suzuki coupling reactions. When doping chiral inducers /-D into 3CzPCH, the chiral co-assemblies formed helical nanofibers upon 120 °C annealing treatment and emitted strong deep-blue circularly polarized luminescence (CPL) with | | of 0.13 ( = 422 nm, = 34%). Most importantly, these chiral co-assemblies served as the emitting layers (EMLs) of CP-OLEDs, reaching an ultrastrong deep-blue CP-EL with a | | value up to 0.47 ( = 440 nm). The corresponding -factor (EQE × | |) of 1.12 × 10 represents one of the highest values reported for CP-OLEDs. This study demonstrates that the LC-functionalization strategy effectively enables intense CP-EL, paving the way for high-performance CP-OLEDs.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12406045 | PMC |
| http://dx.doi.org/10.1039/d5sc05196g | DOI Listing |
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