Development and challenges of indium phosphide-based quantum-dot light-emitting diodes

Shuaibing Wang, Yu Li, Jie Chen, Ouyang Lin, Wentao Niu, Chunhe Yang, Aiwei Tang
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引用次数: 1

Abstract

Quantum dot light-emitting diodes (QLEDs) have developed rapidly in the last several decades, in which the maximum external quantum efficiency of the three primary color cadmium (Cd)-based QLEDs have exceeded the theoretical maximum value. However, the presence of Cd element has severely hampered their commercialization. Indium phosphide (InP)-based quantum dots (QDs) without heavy metals have continuously adjustable luminescence range from blue to near infrared, which is a competitive alternative for Cd-based QDs. Especially in the last few years, the synthesis techniques and the device structures of InP-based QLEDs have been greatly improved. In this review, we first introduce the properties of InP-based QDs, carrier dynamics and the early development history. Then, we focus on the development of InP-based red, green and blue primary color QLEDs from their first report in 2011 to the current state of the art. The effects of QDs structure (core/shell or gradient-alloyed QDs and organic ligand modified QDs) and device structure (charge transport layer and interfacial engineering) on the performance of InP-based QLEDs are also summarized.

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基于磷化铟的量子点发光二极管的发展与挑战
近几十年来,量子点发光二极管(qled)发展迅速,其中三原色镉基qled的最大外量子效率已经超过理论最大值。然而,镉元素的存在严重阻碍了其商业化。不含重金属的磷化铟(InP)基量子点(QDs)具有从蓝色到近红外连续可调的发光范围,是基于cd的量子点的有竞争力的替代品。特别是近年来,基于inp的qled的合成技术和器件结构都有了很大的改进。在本文中,我们首先介绍了基于inp的量子点的性质、载流子动力学和早期发展历史。然后,我们专注于基于inp的红、绿、蓝基色qled的发展,从2011年的第一份报告到目前的最先进状态。总结了量子点结构(核/壳或梯度合金量子点和有机配体修饰的量子点)和器件结构(电荷传输层和界面工程)对inp基量子点性能的影响。
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来源期刊
CiteScore
21.90
自引率
0.70%
发文量
36
审稿时长
47 days
期刊介绍: The Journal of Photochemistry and Photobiology C: Photochemistry Reviews, published by Elsevier, is the official journal of the Japanese Photochemistry Association. It serves as a platform for scientists across various fields of photochemistry to communicate and collaborate, aiming to foster new interdisciplinary research areas. The journal covers a wide scope, including fundamental molecular photochemistry, organic and inorganic photochemistry, photoelectrochemistry, photocatalysis, solar energy conversion, photobiology, and more. It provides a forum for discussing advancements and promoting collaboration in the field of photochemistry.
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