用C60为空穴缓冲层的高效率有机电致发光器件

朱文清; 郑新友; 张步新; 吴有智; 蒋雪茵; 张志林; 许少鸿

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用C₆₀为空穴缓冲层的高效率有机电致发光器件

研究论文 | 更新时间：2020-08-11

- 用C₆₀为空穴缓冲层的高效率有机电致发光器件
- C₆₀ as a Hole-injecting Buffer Layer for Improvement in Efficiency of Organic Electroluminescent Devices
- 发光学报 2002年23卷第3期页码：269-272
- 作者机构：
  
  上海大学材料学院电子信息材料系上海,201800
- 作者简介：
- 基金信息：
  
  国家自然科学基金重大项目(59790050)();国家自然科学基金资助项目(69687002();60077020)()
- DOI：
  中图分类号： TN383.1
- 收稿日期：2001-09-20，
  
  修回日期：2001-11-29，
  
  纸质出版日期：2002-05-20
- 稿件说明：
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朱文清, 郑新友, 张步新, 吴有智, 蒋雪茵, 张志林, 许少鸿. 用C60为空穴缓冲层的高效率有机电致发光器件[J]. 发光学报, 2002,23(3): 269-272

ZHU Wen-qing, ZHENG Xin-you, ZHANG Bu-xin, WU You-zhi, JIANG Xue-yin, ZHANG Zhi-lin, XU Shao-hong. C60 as a Hole-injecting Buffer Layer for Improvement in Efficiency of Organic Electroluminescent Devices[J]. Chinese Journal of Luminescence, 2002,23(3): 269-272
朱文清, 郑新友, 张步新, 吴有智, 蒋雪茵, 张志林, 许少鸿. 用C60为空穴缓冲层的高效率有机电致发光器件[J]. 发光学报, 2002,23(3): 269-272 DOI：

ZHU Wen-qing, ZHENG Xin-you, ZHANG Bu-xin, WU You-zhi, JIANG Xue-yin, ZHANG Zhi-lin, XU Shao-hong. C60 as a Hole-injecting Buffer Layer for Improvement in Efficiency of Organic Electroluminescent Devices[J]. Chinese Journal of Luminescence, 2002,23(3): 269-272 DOI：

摘要

以富勒烯C

作为空穴注入缓冲层

在结构为ITO/C

/TPD/Alq

/LiF/Al的器件中

改善了器件的发光效率。研究了C

厚度对器件发光特性的影响。当C

厚度为16nm时

器件发光效率最高。在电流密度为100mA/cm

时

该器件的效率比没有缓冲层的器件提高近一倍。

Abstract

Organic electroluminescent devices using fullerene C

as a hole-injecting buffer layer with different thickness have been prepared.The structure of the device is ITO/C

/TPD/Alq

/LiF/Al(TPD: N

N-diphenyl-N

N-bis(3-methylphenyl)-1

1- biphenyl-4

4-diamine

Alq

:tris(8-quinolinolato)-aluminum).The driven voltage are higher at the same current density with the increment of C

thickness.The driven voltages are 8.1V

8.4V

9.2V

10.3V for the devices with 0nm

12nm

16nm and 20nm thickness of C

at the current density of 4mA/cm

respectively.The effects of the thickness of C

on the efficiencies of the devices are investigated.The device with 12nm C

buffer has the highest luminance while the current efficiency is not the optimum for this device

because the current density for this device is much greater than that for the device with 16nm C

buffer.The optimum thickness of C

buffer

16nm

which produces the highest efficiency

is obtained.EL efficiency of the device

which

ontains 16nm C

buffer

has been improved by about a factor of one in comparison with the device without buffer at the current density of 100mA/cm

.The undoped C

with high resistivity and first ionized potential using as a hole injecting buffer layer blocks the hole injection at the interface of anode and hole transporting layer.As the buffer becomes thicker

the current density is suppressed by decreased tunneling of holes under opplied voltage.As a result

the current densities are reduced at the same driven voltage.In the devices

Alq

which is an electron transporting and emissive layer

has a much higher electron mobility than hole mobility.Accordingly

in Alq

electrons are majority carriers and holes are minority carriers.In order to obtain high efficiency in organic electroluminescent devices the balanced electrons and holes injected from the cathode and anode into the emissive layer is required.Electroluminescence efficiency is controlled by the hole injection from the TPD into the Alq

.Part of the driven voltage drops across the C

buffer

resulting in acceleration of injected holes and more accelerated holes injected into emissive layer.Thus

the reason for the improvement of efficiencies for the devices with suitable thickness of C

can be attributed to the more balanced carriers concentration in emissive layer.

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