P‐214: TADF/Fluorescent Hybrid WOLED Device with Adjustable Color Temperature

P‐214: TADF/Fluorescent Hybrid WOLED Device with Adjustable Color Temperature

Although the tandem WOLED have the potential of high efficiency and long lifetime, the high voltage of tandem structure usually limits its application inAR/VR products. To achieve low voltage WOLED, it is necessary to develop single structure. Most of the reported single WOLED with the use of TADF m...

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Veröffentlicht in:SID International Symposium Digest of technical papers 2024-06, Vol.55 (1), p.2194-2197
Hauptverfasser: Wang, Linlin, You, Juanjuan, Bian, Menghua, Shen, Yongqi, Yan, Guang, Bo, Bin, Quan, Wei, Zhang, Yue, Cui, Ying, Hu, Chunjing, Yu, Donghui, Li, Chun, Sun, Li, Shih, Huai‐Ting, Yu, Jianwei
Format: Artikel
Sprache:eng
Schlagworte:
Blue fluorescence
Color temperature
Fluorescence
Interlayers
Low voltage
Service life assessment
Single-WOLED
Yellow TADF
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Zusammenfassung:Although the tandem WOLED have the potential of high efficiency and long lifetime, the high voltage of tandem structure usually limits its application inAR/VR products. To achieve low voltage WOLED, it is necessary to develop single structure. Most of the reported single WOLED with the use of TADF materials show a relatively large CIE coordinates. In this work, we use the combination of blue fluorescence and yellow TADF materials with a 1‐2 nm p‐type interlayer material between them. The energy is transferred from blue fluorescence to TADF. And finally, the single WOLED with tunable color temperature was realized. The CIE coordinates can be tuned from the warm white point of (0.313, 0.323) to the cold white point of (0.285, 0.279). The roll‐off of efficiency from 240 nit to 3000 nit is lower than 10%, and the lifetime (LT95) can reach 1300 h at 1000 nit.
ISSN:0097-966X
2168-0159
DOI:10.1002/sdtp.18045