范德瓦尔斯集成单结发光二极管在室温下量子效率超过10%。

Van der Waals integrated single-junction light-emitting diodes exceeding 10% quantum efficiency at room temperature.

作者信息

Hu Zhenliang, Fu Qiang, Lu Junpeng, Zhang Yong, Zhang Qi, Wang Shixuan, Duan Zhexing, Zhang Yuwei, Liu Xiaoya, Pan Qiang, Jiang Guangsheng, Yang Tong, Han Xu, Yang Yutian, Liu Tianqi, Tao Tao, Wang Wenhui, Zhao Bei, Yuan Xueyong, Wan Dongyang, Liu Yanpeng, You Yumeng, Zhou Peng, Liu Hongwei, Ni Zhenhua

机构信息

Key Laboratory of Quantum Materials and Devices of Ministry of Education, School of Physics, Southeast University, Nanjing 211189, China.

Shi-Cheng Laboratory for Information Display and Visualization, Southeast University, Nanjing, 211189, China.

出版信息

Sci Adv. 2024 Oct 4;10(40):eadp8045. doi: 10.1126/sciadv.adp8045. Epub 2024 Oct 2.

DOI:10.1126/sciadv.adp8045

PMID:39356757

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11446268/

Abstract

The construction of miniaturized light-emitting diodes (LEDs) with high external quantum efficiency (EQE) at room temperature remains a challenge for on-chip optoelectronics. Here, we demonstrate microsized LEDs fabricated by a dry-transfer van der Waals (vdW) integration method using typical layered Ruddlesden-Popper perovskites (RPPs). A single-crystalline layered RPP nanoflake is used as the active layer and sandwiched between two few-layer graphene contacts, forming van der Waals LEDs (vdWLEDs). Strong electroluminescence (EL) emission with a low turn-on current density of 20 pA μm and high EQE exceeding 10% is observed at room temperature, which sets the benchmark for the EQE of vdWLEDs ever recorded. Such efficient EL emission is attributed to the inherent multiple quantum well structure and high photoluminescence quantum yield (35%) of RPPs and a low charge injection barrier of ~0.10 eV facilitated by the Fowler-Nordheim tunneling mechanism. These findings promise a scalable pathway for accessing high-performance miniaturized light sources for on-chip optical optoelectronics.

摘要

在室温下构建具有高外量子效率（EQE）的小型化发光二极管（LED）仍然是片上光电子学面临的一项挑战。在此，我们展示了通过使用典型的层状Ruddlesden-Popper钙钛矿（RPP）的干转移范德华（vdW）集成方法制造的微型LED。单晶层状RPP纳米片用作有源层，并夹在两个少层石墨烯接触层之间，形成范德华发光二极管（vdWLED）。在室温下观察到强电致发光（EL）发射，其开启电流密度低至约20 pA/μm，外量子效率超过10%，这为有史以来记录的vdWLED的EQE设定了基准。这种高效的EL发射归因于RPP固有的多量子阱结构和高光致发光量子产率（约35%），以及由福勒-诺德海姆隧穿机制促成的约0.10 eV的低电荷注入势垒。这些发现为实现用于片上光学光电子学的高性能小型化光源提供了一条可扩展的途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4bbb/11446268/57afae67cd30/sciadv.adp8045-f1.jpg

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范德瓦尔斯集成单结发光二极管在室温下量子效率超过10%。

Van der Waals integrated single-junction light-emitting diodes exceeding 10% quantum efficiency at room temperature.

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