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Enhancing performance of inverted quantum-dot light-emitting diodes based on a solution-processed hole transport layer via ligand treatment

Depeng Li, Jingrui Ma, Wenbo Liu, Guohong Xiang, Xiangwei Qu, Siqi Jia, Mi Gu, Jiahao Wei, Pai Liu, Kai Wang, Xiao Wei Sun

2023Journal of Semiconductors16 citationsDOI

Abstract

Abstract The performance of inverted quantum-dot light-emitting diodes (QLEDs) based on solution-processed hole transport layers (HTLs) has been limited by the solvent-induced damage to the quantum dot (QD) layer during the spin-coating of the HTL. The lack of compatibility between the HTL's solvent and the QD layer results in an uneven surface, which negatively impacts the overall device performance. In this work, we develop a novel method to solve this problem by modifying the QD film with 1,8-diaminooctane to improve the resistance of the QD layer for the HTL’s solvent. The uniform QD layer leads the inverted red QLED device to achieve a low turn-on voltage of 1.8 V, a high maximum luminance of 105 500 cd/m 2 , and a remarkable maximum external quantum efficiency of 13.34%. This approach releases the considerable potential of HTL materials selection and offers a promising avenue for the development of high-performance inverted QLEDs.

Topics & Concepts

Quantum dotOptoelectronicsLight-emitting diodeMaterials scienceDiodeLuminanceQuantum efficiencyLayer (electronics)Solution processCoatingNanotechnologyOpticsPhysicsQuantum Dots Synthesis And PropertiesChalcogenide Semiconductor Thin FilmsSemiconductor Quantum Structures and Devices
Enhancing performance of inverted quantum-dot light-emitting diodes based on a solution-processed hole transport layer via ligand treatment | Litcius