Guest concentration, bias current, and temperature-dependent sign inversion of magneto-electroluminescence in thermally activated delayed fluorescence devices

Deng, Jianhua; Jia, Weiyao; Chen, Yingbing; Liu, Dongyu; Hu, Yeqian; Xiong, Zuhong

doi:10.1038/srep44396

Cited by 33 publications

(36 citation statements)

References 43 publications

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“…This was the result of modulating the ratio of singlet and triplet polaron pairs ( 1 PP and 3 PP). Numerous studies regarding the mechanism of magnetic field effects on OLEDs based on fluorescent 11,12 , phosphorescent 13 , exciplex 14 , and TADF emitters 15,16 were investigated to unveil the underlying dynamics of exciton generation, radiation, and annihilation processes. PP 11,17 , triplet-polaron interactions (TPI) 16,18 , and TTA mechanisms 12,16 were mainly used to explain magnetic field effects.…”

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confidence: 99%

Understanding degradation of organic light-emitting diodes from magnetic field effects

et al. 2020

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The impact of magnetic field effects on the electroluminescence of organic light-emitting diodes is commonly used to characterize exciton dynamics such as generation, annihilation, and performance degradation. However, interpreting these effects is challenging. Here, we show that magnetic field effects in organic light-emitting diodes can be understood in terms of the magnetic response of device characteristics derived from polaron-pair and triplet exciton quenching processes, such as triplet-polaron interactions and triplet-triplet annihilation. Device degradation shows a clear relationship with the amplitude of the magnetic field effects, enabling non-destructive measurement of the degradation. The results and proposed mechanism provide a better understanding of magnetic field effects on organic light-emitting diodes and device degradation phenomena.

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Understanding degradation of organic light-emitting diodes from magnetic field effects

et al. 2020

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“…TADF材料具有特殊的分子结构, 其分子最高占据轨道(HOMO)和最低未占据轨道(LUMO)的重叠较小 , 从而形成分子内电荷转移态 , 并且三重态 ( 3 CT)和单重态( 1 CT)之间能级差(ΔE ST )较小, 三重态激子吸收环境热量通过反向系间窜越(reverse intersystem crossing, RISC)转化为单重态激子的过程增强, 单重态激子退激发光 [18,20~23] , 从而可以较好地提高器件的发光效率. 因此, TADF材料通常作为客体应用于主客体掺杂型器件, 并采用三线态能量较高的材料(如CBP和mCP)作为掺杂主体 [16,24] , 有效束缚 TADF材料中的三线态激子的能量, 从而充分利用 RISC过程将三线态激子转变成单线态激子, 显著增强器件的效率.…”

Section: 论文unclassified

“…PEDOT : PSS/m-MTDATA/Alq 3 : x% 4CzTPN-Ph/BCP/ LiF/Al的器件(其中, ITO为铟锡氧化物(indium tin oxide), [16] , 使得 4CzTPN-Ph…”

Section: 本文选用 a L Q 3 作为掺杂主体 T A D F 材料 4cztpn-ph作为掺杂客体制unclassified

“…4CzTPN-Ph中高效率进行 [17] , 器件能够产生更强的发光(即MEL=ΔEL/EL中分母变大), 这将直接导致测到的MEL幅值较小(图2(c)). 由于本文主要讨论器件中MEL和MC幅值大小的差异, 因此对参考器件中 MEL随电流改变出现的正负转变不作讨论, 具体原因可参考本研究组 [16]…”

Section: 本文选用 a L Q 3 作为掺杂主体 T A D F 材料 4cztpn-ph作为掺杂客体制unclassified

“…发光增强 [1] , 表现为在外加较小磁场下快速增加的 MEL; 同时, 由于 1 PP较 3 PP的离子性更强, 1 PP还可以解离为自由电子空穴, 从而使器件电流增加 [29] , 表 http://engine.scichina.com/doi/10.1360/N972018-00434 材料和客体材料之间存在 Förster和 Dexter能量转移 [16] . 因此 [31,32] .…”

Section: 本文选用 a L Q 3 作为掺杂主体 T A D F 材料 4cztpn-ph作为掺杂客体制unclassified

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Abnormal magnetic field effects in doped organic light-emitting devices

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Efficient and Bright Organic Radical Light‐Emitting Diodes with Low Efficiency Roll‐Off

Cho,

Gorgon,

Hung

et al. 2023

Advanced Materials

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Organic radicals have been of interest due to their potential to replace nonradical‐based organic emitters, especially for deep red/near‐infrared (NIR) electroluminescence (EL), based on the spin‐allowed doublet fluorescence. However, the performance of the radical‐based EL devices is limited by low carrier mobility that causes a large efficiency roll‐off at high current densities. Here, we report highly efficient and bright doublet EL devices by combining a thermally activated delayed fluorescence (TADF) host that supports both electron and hole transport and a tris(2,4,6‐trichlorophenyl)methyl‐based radical emitter. Steady‐state and transient photophysical studies reveal the optical signatures of doublet luminescence mechanisms arising from both host and guest photoexcitation. The host system presented here allows balanced hole and electron currents, and we report a high maximum external quantum efficiency (EQE) of 17.4% at 707 nm peak emission with substantially improved efficiency roll‐off: over 70% of the maximum EQE (12.2%) is recorded at 10 mA cm−2, and even at 100 mA cm−2, nearly 50% of the maximum EQE (8.4%) is maintained. Charge recombination is primarily at the radical guest sites, but there is evidence from magneto‐EL for host recombination and later energy transfer to the radical guest. We consider this is an important step to the practical application of organic radicals to NIR light‐emitting devices.This article is protected by copyright. All rights reserved

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Guest concentration, bias current, and temperature-dependent sign inversion of magneto-electroluminescence in thermally activated delayed fluorescence devices

Cited by 33 publications

References 43 publications

Understanding degradation of organic light-emitting diodes from magnetic field effects

Understanding degradation of organic light-emitting diodes from magnetic field effects

Abnormal magnetic field effects in doped organic light-emitting devices

Efficient and Bright Organic Radical Light‐Emitting Diodes with Low Efficiency Roll‐Off

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