A high efficiency LED based on copper–iodide clusters
A team led by Prof. Yao Hongbin from the University of Science and Technology of China (USTC) developed a high efficiency, high brightness warm white light-emitting diode (LED) based on copper-iodide cluster hybrids. Their work is published in Nature Photonics.
Solution-processed LED are considered to be the technology for realizing the next generation of large-area solid-state lighting due to their simple manufacturing process and high operability. At present, solution-processed LED devices based on lead-halide perovskites, organic semiconductor materials, and colloidal core-shell quantum dots (QDs) have achieved high electroluminescence performance.
However, materials containing heavy metals such as lead-halide perovskites and CdSe QDs cause serious environmental issues, while LED devices based on organic light-emitting molecules, InP QDs and ZnSe QDs have high production costs due to their complex synthesis. Therefore, developing solution-processed LED based on low-cost, low-toxicity, easily scalable and highly efficient emitters is the key challenge for future solid-state lighting.
To tackle this challenge, the team first designed and prepared a copper-iodine-based hybrid cluster with a broad photoluminescence spectrum.
By introducing nitrogen-phosphine chelating ligands and phosphine-containing solubilizing ligands, the team obtained copper-iodide hybrid clusters with both high luminescence efficiency and high solubility, which show a high solubility of more than 200 mg/mL and good structural stability in N, N-dimethylformamide (DMF), the cross-solvent used in LED production.
The luminescent thin films fabricated by spin-coating in DMF exhibit a low surface roughness of 0.22 nm and a high photoluminescence quantum yield of more than 70%, which can be used as a luminescent layer to make low-cost warm-white LED devices through an orthogonal solvent route.
The resulting LED devices achieve a maximum external quantum efficiency of 19.1%, a brightness of more than 40,000 cd m-2, and an operational lifetime of more than 232 h (T50@100 cd m-2). Meanwhile, thanks to the good solubility and processability of the clusters, the team constructed a large-area solution-processed LED device with a working area of 36 cm2 through blade-coating, which exhibited warm white light emission with brightness close to 60,000 cd m-2.
In addition, by modifying different electron-donating groups on the nitrogen heterocycles of the nitrogen-phosphine chelating ligands, the team developed a series of solution-processed color-tunable LED devices.
This work realized LED devices with high efficiency and high brightness based on copper-iodide hybrid clusters. The structural expandability and spectral tunability of the copper-iodide hybrid clusters make them promising for fabricating low-cost high-performance LED panels and solid-state lighting.
More information:
Jing-Jing Wang et al, High efficiency warm-white light-emitting diodes based on copper–iodide clusters, Nature Photonics (2023). DOI: 10.1038/s41566-023-01340-8
Provided by
University of Science and Technology of China
Citation:
A high efficiency LED based on copper–iodide clusters (2024, March 25)
retrieved 26 March 2024
from https://techxplore.com/news/2024-03-high-efficiency-based-copperiodide-clusters.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no
part may be reproduced without the written permission. The content is provided for information purposes only.
Comments are closed