Modulation in charge distribution via polyethylenimine-incorporation into ZnO electron transport layer and its impact on quantum-dots light emitting device stability

Organic Photonics + Electronics Pub Date : 2022-10-03 DOI:10.1117/12.2631581

Dongsub Chung, H. Aziz

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Abstract

Polyethylenimine (PEI) is sometimes used as a passivation layer at the interface between ZnO electron transport layer and quantum-dots emission layer in quantum-dots light emitting devices (QDLEDs). We recently find that blending ZnO with PEI (ZnO:PEI) is advantageous over using it in a separate layer in terms of device stability. In this work, a comparative study between the ZnO:PEI with a neat ZnO ETL is conducted. The ZnO:PEI ETL results in improvement in both EQE and lifetime of QDLEDs compared to the ZnO ETL. By replacing the ZnO ETL with the ZnO:PEI ETL, delayed EL measurements reveal changes in charge distribution across the QDLED. Applying a reverse bias pulse shows that the reversible delayed EL components in the QDLED with the ZnO:PEI ETL stemmed from the electrons placed in a hole transport layer (HTL). The electrons in the HTL induce an annihilation of accumulated holes at the QD EML/HTL that can be a cause of device degradation. The result provides a new insight into the importance of managing charge distribution across the QDLED via ZnO ETL modification for realizing highly stable QDLEDs.

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聚乙烯亚胺掺入ZnO电子传输层调制电荷分布及其对量子点发光器件稳定性的影响

在量子点发光器件(qdled)中，聚乙烯亚胺(PEI)有时被用作ZnO电子传输层和量子点发射层之间的钝化层。我们最近发现，在器件稳定性方面，ZnO与PEI (ZnO:PEI)混合比在单独的层中使用更有利。本文对ZnO:PEI与ZnO ETL进行了对比研究。与ZnO ETL相比，ZnO:PEI ETL提高了qdled的EQE和寿命。通过将ZnO ETL替换为ZnO:PEI ETL，延迟EL测量揭示了qdle上电荷分布的变化。施加反向偏置脉冲表明，ZnO:PEI ETL的QDLED中的可逆延迟EL分量源于放置在空穴传输层(HTL)中的电子。HTL中的电子诱导QD EML/HTL中积累的空穴湮灭，这可能是导致器件退化的原因。该结果为通过ZnO ETL修饰来管理电荷分布对于实现高稳定QDLED的重要性提供了新的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Organic Photonics + Electronics

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