High efficiency green phosphorescent organic light emitting diodes using an ultrathin nondoped emitting layer

Xue Meng You; Xin Wen Zhang; Yue Hua Chen; Wen Yong Lai; Wei Huang

doi:10.3788/fgxb20163708.0961

High efficiency green phosphorescent organic light emitting diodes using an ultrathin nondoped emitting layer

Xue Meng You, Xin Wen Zhang, Yue Hua Chen, Wen Yong Lai, Wei Huang

科研成果: 期刊稿件 › 文章 › 同行评审

2 引用（Scopus）

摘要

The nondoped emitting layer (EML) was constructed by introducing a ultrathin layer of pure green phosphorescent dye tris(2-phenylpyridine)iridium[Ir(ppy)₃] between a hole transporting layer TCTA and an electron transporting layer TPBi. The device structure is ITO/MoO₃(2 nm)/NPB(40 nm)/TCTA(10 nm)/Ir(ppy)₃(0.1-0.5 nm)/TPBi(40 nm)/LiF(1 nm)/Al(80 nm). The thickness of EML can affect the performance of green phosphorescent organic light emitting diodes (PhOLEDs). By changing the thickness of emitting layers, the best performance of green PhOLEDs can be achieved with a 0.2 nm pure phosphorescent dye. The device exhibits highly efficient green emission with a maximum luminance of 26 350 cd·m^-2, a maximum current efficiency of 42.9 cd·A^-1 and a maximum external quantum efficiency of 12.9%. These results indicate that the high performance PhOLEDs can be realized with only ultrathin nondoped EMLs in a simple way.

源语言	英语
页（从-至）	961-966
页数	6
期刊	Faguang Xuebao/Chinese Journal of Luminescence
卷	37
期	8
DOI	https://doi.org/10.3788/fgxb20163708.0961
出版状态	已出版 - 1 8月 2016
已对外发布	是

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title = "High efficiency green phosphorescent organic light emitting diodes using an ultrathin nondoped emitting layer",

abstract = "The nondoped emitting layer (EML) was constructed by introducing a ultrathin layer of pure green phosphorescent dye tris(2-phenylpyridine)iridium[Ir(ppy)3] between a hole transporting layer TCTA and an electron transporting layer TPBi. The device structure is ITO/MoO3(2 nm)/NPB(40 nm)/TCTA(10 nm)/Ir(ppy)3(0.1-0.5 nm)/TPBi(40 nm)/LiF(1 nm)/Al(80 nm). The thickness of EML can affect the performance of green phosphorescent organic light emitting diodes (PhOLEDs). By changing the thickness of emitting layers, the best performance of green PhOLEDs can be achieved with a 0.2 nm pure phosphorescent dye. The device exhibits highly efficient green emission with a maximum luminance of 26 350 cd·m-2, a maximum current efficiency of 42.9 cd·A-1 and a maximum external quantum efficiency of 12.9%. These results indicate that the high performance PhOLEDs can be realized with only ultrathin nondoped EMLs in a simple way.",

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author = "You, {Xue Meng} and Zhang, {Xin Wen} and Chen, {Yue Hua} and Lai, {Wen Yong} and Wei Huang",

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AU - Huang, Wei

PY - 2016/8/1

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N2 - The nondoped emitting layer (EML) was constructed by introducing a ultrathin layer of pure green phosphorescent dye tris(2-phenylpyridine)iridium[Ir(ppy)3] between a hole transporting layer TCTA and an electron transporting layer TPBi. The device structure is ITO/MoO3(2 nm)/NPB(40 nm)/TCTA(10 nm)/Ir(ppy)3(0.1-0.5 nm)/TPBi(40 nm)/LiF(1 nm)/Al(80 nm). The thickness of EML can affect the performance of green phosphorescent organic light emitting diodes (PhOLEDs). By changing the thickness of emitting layers, the best performance of green PhOLEDs can be achieved with a 0.2 nm pure phosphorescent dye. The device exhibits highly efficient green emission with a maximum luminance of 26 350 cd·m-2, a maximum current efficiency of 42.9 cd·A-1 and a maximum external quantum efficiency of 12.9%. These results indicate that the high performance PhOLEDs can be realized with only ultrathin nondoped EMLs in a simple way.

AB - The nondoped emitting layer (EML) was constructed by introducing a ultrathin layer of pure green phosphorescent dye tris(2-phenylpyridine)iridium[Ir(ppy)3] between a hole transporting layer TCTA and an electron transporting layer TPBi. The device structure is ITO/MoO3(2 nm)/NPB(40 nm)/TCTA(10 nm)/Ir(ppy)3(0.1-0.5 nm)/TPBi(40 nm)/LiF(1 nm)/Al(80 nm). The thickness of EML can affect the performance of green phosphorescent organic light emitting diodes (PhOLEDs). By changing the thickness of emitting layers, the best performance of green PhOLEDs can be achieved with a 0.2 nm pure phosphorescent dye. The device exhibits highly efficient green emission with a maximum luminance of 26 350 cd·m-2, a maximum current efficiency of 42.9 cd·A-1 and a maximum external quantum efficiency of 12.9%. These results indicate that the high performance PhOLEDs can be realized with only ultrathin nondoped EMLs in a simple way.

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High efficiency green phosphorescent organic light emitting diodes using an ultrathin nondoped emitting layer

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