Tailored efficient and reliable double luminescent layer hybrid WOLEDs via doping engineering

荧光粉 发光 兴奋剂 亮度 光电子学 量子效率 能量转移 化学 材料科学 光学 物理 分子物理学
作者
Wenxin Zhang,Gang Zhang,Xi Chang,He Dong,Jihui Lang,Guoliang Xing,Dandan Wang,Zhihong Mai,Wang Xinying,Wenxin Zhang,Gang Zhang,Xi Chang,He Dong,Jihui Lang,Guoliang Xing,Dandan Wang,Zhihong Mai
出处
期刊:Semiconductor Science and Technology [IOP Publishing]
卷期号:39 (5): 055013-055013 被引量:2
标识
DOI:10.1088/1361-6641/ad3e23
摘要

Abstract Doping engineering has been widely utilized to increase the efficiency of White organic light-emitting diodes (WOLEDs). In this study, a blue phosphor material named DMAC-DPS and an orange phosphor material named PO-01 are integrated into the host materials Bis[2-(diphenylphosphino)phenyl] ether oxide (DPEPO) and carbazole-based 4,4′-biscarbazole-p-biphenyl (CBP) by incorporating the principle of complementary color luminescence, resulting in a doped double-luminescent layer hybrid WOLED. The developed device structure consists of ITO/MoO 3 /TCTA/DPEPO:DMAC-DPS/CBP:PO-01 (or CBP:PO-01/DPEPO:DMAC-DPS)/TAZ/Alq 3 /LiF/Al. The transfer of energy between the host and guest materials is achieved by controlling the thickness and position of the emitting layer, leading to a more balanced emission of blue and yellow light and an overall increase in device efficiency. The developed WOLED exhibits a maximum current efficiency of 26.8 cd A −1 , a power efficiency of 16.8 lm W −1 , and an external quantum efficiency of 10.95%. The stable color coordinates of the device remains consistent, varying from (0.34, 0.40) to (0.33, 0.39) at brightness levels ranging from 100 to 1000 cd m −2 . Technically, the incorporation of blue and orange phosphor materials into the host materials DPEPO and CBP, respectively, resulting in a doped double-luminescent layer hybrid WOLED, has shown a more balanced emission of blue and yellow light and resulted in increased efficiency. The reliable color coordinates corroborate the good color stability, making it a promising candidate for various applications. Furthermore, the controlled transfer of energy between the host and guest materials has led to a more balanced emission of blue and yellow light. Our developed doping engineering methods have shown potential for increased efficiency and good color stability, making the developed WOLED a promising candidate for various applications.
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