通过传输层掺杂策略实现蓝色量子点发光二极管的平衡电荷注入

Achieving Balanced Charge Injection of Blue Quantum Dot Light-Emitting Diodes through Transport Layer Doping Strategies.

作者信息

Wang Fuzhi, Sun Wenda, Liu Pai, Wang Zhibin, Zhang Jin, Wei Jiangliu, Li Yang, Hayat Tasawar, Alsaedi Ahmed, Tan Zhan'ao

机构信息

State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources , North China Electric Power University , Beijing 102206 , China.

Beijing Advanced Innovation Center for Soft Matter Science and Engineering , Beijing University of Chemical Technology , Beijing 100029 , China.

出版信息

J Phys Chem Lett. 2019 Mar 7;10(5):960-965. doi: 10.1021/acs.jpclett.9b00189. Epub 2019 Feb 18.

DOI:10.1021/acs.jpclett.9b00189

PMID:30739455

Abstract

For blue quantum dot (QD) light-emitting diodes (QLEDs), the imbalance of charges transport and injection severely affects their efficiency and lifetime. A better charge balance can be realized by improving hole injection while suppressing redundant electrons. Introducing dopants into charge transport layers (CTLs) is an effective and simple strategy to modulate the charge injection barrier and mobility. In this work, optoelectronic simulation is performed to investigate the change in physical process within the devices upon CTL doping. The results confirm that the charge distribution in the QD layer is more balanced and the recombination rate is greatly improved. Under the guidance of theoretical simulation, high-performance blue QLEDs were achieved by fine-tuning the charge balance through CTL doping. The luminance and external quantum efficiency have been dramatically increased from 18 679 to 34 874 cd/m and from 4.7 to 10.7%, respectively. The operation lifetime is also improved ∼3.5 times due to the more balanced charge injection.

摘要

对于蓝色量子点（QD）发光二极管（QLED），电荷传输和注入的不平衡严重影响其效率和寿命。通过改善空穴注入同时抑制多余电子，可以实现更好的电荷平衡。将掺杂剂引入电荷传输层（CTL）是调节电荷注入势垒和迁移率的有效且简单的策略。在这项工作中，进行了光电模拟以研究CTL掺杂后器件内部物理过程的变化。结果证实，量子点层中的电荷分布更加平衡，复合率大大提高。在理论模拟的指导下，通过CTL掺杂微调电荷平衡，实现了高性能蓝色QLED。亮度和外量子效率分别从18679 cd/m显著提高到34874 cd/m，从4.7%提高到10.7%。由于电荷注入更加平衡，工作寿命也提高了约3.5倍。

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通过传输层掺杂策略实现蓝色量子点发光二极管的平衡电荷注入

Achieving Balanced Charge Injection of Blue Quantum Dot Light-Emitting Diodes through Transport Layer Doping Strategies.

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