材料科学
光致发光
咔唑
有机发光二极管
荧光
甲苯
二极管
光电子学
光化学
芯(光纤)
量子效率
蓝移
聚合物
发光
电致发光
蓝光
发光二极管
X射线光电子能谱
亮度
亚稳态
作者
Paramasivam Palanisamy,Jung Ho Ham,Jun Hyeog Oh,Young Hun Jung,Se Chan Cha,Hyunmin Cho,Eojin Jeon,A. M. Rajput,Mi Young Chae,Jang Hyuk Kwon
标识
DOI:10.1002/adom.202503563
摘要
Abstract Stable multi‐resonance thermally activated delayed fluorescence (MR‐TADF) blue emitters are an effective choice for organic light‐emitting diodes (OLEDs), offering high colour purity and efficiency. Here, a stable B─N emitting core is developed through an asymmetric N‐fusion strategy. This involved constructing a B─N emitting core on a robust carbazole backbone, which enhances structural rigidity and reduces the number of weak sp 3 C─N bonds relative to typical DABNA emitters, thereby increasing the bond‐dissociation energies of the anionic state. Additionally, the peripherally fused carbazoles yielded two emitters, namely, pCz‐BN2 and mCz‐BN2, exhibiting pure blue emissions at 457 and 459 nm in a toluene solution, with corresponding CIEx,y of (0.13, 0.07), and achieved high photoluminescence quantum yields over 95% for the emitters, respectively. The fabricated fluorescence OLEDs produce pure blue emissions at 459 and 463 nm, with maximum EQEs of 8.67% and 6.90% for pCz‐BN2 and mCz‐BN2 , respectively, demonstrating minimal efficiency roll‐off. Furthermore, the PSF‐OLEDs emit blue light with high EQEs of 25.8% and 23.6%, respectively, with reduced roll‐off. Significantly, the pCz‐BN2 ‐based Fl‐OLED has attained a remarkable operational lifetime (LT 95 ) of 95 h at an initial luminance of 1000 cd m − 2 , the longest reported among single‐boron MR emitters to date.
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