High-brightness green InP-based QLEDs enabled by in-situ passivating core surface with zinc myristate

Materials futures Pub Date : 2024-04-04 DOI:10.1088/2752-5724/ad3a83

Yuanbin Cheng, Qian Li, Mengyuan Chen, Fei Chen, Zhenghui Wu, Huaibin Shen

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Abstract

The performance of red InP and blue ZnTeSe-based quantum dots (QDs) and corresponding QD light emitting diodes (QLEDs) has already been improved significantly, whose external quantum efficiencies (EQEs) and luminances have exceeded 20% and 80,000 cd m-2, respectively. However, the inferior performance of the green InP-based device hinders the commercialization of full-color Cd-free QLED technology. The ease of oxidation of the highly reactive InP cores leads to high non-radiative recombination and poor photoluminescence quantum yield (PL QY) of the InP-based core/shell quantum dots (QDs), limiting the performance of the relevant QLEDs. Here, we proposed a fluoride-free synthesis strategy to in-situ passivate the InP cores, in which zinc myristate reacted with phosphine dangling bonds to form Zn-P protective layer and protect InP cores from the water and oxygen in the environment. The resultant InP/ZnSe/ZnS core/shell QDs demonstrated a high PL QY of 91%. The corresponding green-emitting electroluminescence devices exhibited a maximum EQE of 12.74%, along with a luminance of over 175,000 cd m-2 and a long T50@100 cd m-2 lifetime of over 20,000 h.

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利用肉豆蔻酸锌原位钝化核心表面实现高亮度绿色 InP 基 QLED

基于红色 InP 和蓝色 ZnTeSe 的量子点（QD）和相应的 QD 发光二极管（QLED）的性能已经有了显著提高，其外部量子效率（EQE）和亮度分别超过了 20% 和 80,000 cd m-2。然而，基于 InP 的绿色器件性能较差，阻碍了全彩无镉 QLED 技术的商业化。高活性 InP 内核容易氧化，导致基于 InP 内核/外壳的量子点（QDs）非辐射重组高、光致发光量子产率（PL QY）低，从而限制了相关 QLED 的性能。在这里，我们提出了一种原位钝化 InP 内核的无氟合成策略，即肉豆蔻酸锌与膦当键反应形成 Zn-P 保护层，保护 InP 内核不受环境中水和氧的影响。由此得到的 InP/ZnSe/ZnS 内核/外壳 QDs 的 PL QY 高达 91%。相应的绿色发光电致发光器件的最大 EQE 为 12.74%，亮度超过 175,000 cd m-2，T50@100 cd m-2 寿命长达 20,000 小时以上。

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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Materials futures

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