Stretchable organometal-halide-perovskite quantum-dot light-emitting diodes

Yun Fei Li; Shu Yu Chou; Peng Huang; Changtao Xiao; Xiaofeng Liu; Yu Xie; Fangchao Zhao; Yilong Huang; Jing Feng; Haizheng Zhong; Hong Bo Sun; Qibing Pei

doi:10.1002/adma.201807516

Stretchable organometal-halide-perovskite quantum-dot light-emitting diodes

Yun Fei Li, Shu Yu Chou, Peng Huang, Changtao Xiao, Xiaofeng Liu, Yu Xie, Fangchao Zhao, Yilong Huang, Jing Feng, Haizheng Zhong, Hong Bo Sun, Qibing Pei

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

102 引用（Scopus）

摘要

Stretchable light-emitting diodes (LEDs) and electroluminescent capacitors have been reported to potentially bring new opportunities to wearable electronics; however, these devices lack in efficiency and/or stretchability. Here, a stretchable organometal-halide-perovskite quantum-dot LED with both high efficiency and mechanical compliancy is demonstrated. The hybrid device employs an ultrathin (<3 µm) LED structure conformed on a surface-wrinkled elastomer substrate. Its luminescent efficiency is up to 9.2 cd A⁻¹, which is 70% higher than a control diode fabricated on the rigid indium tin oxide/glass substrate. Mechanical deformations up to 50% tensile strain do not induce significant loss of the electroluminescent property. The device can survive 1000 stretch–release cycles of 20% tensile strain with small fluctuations in electroluminescent performance.

源语言	英语
文章编号	1807516
期刊	Advanced Materials
卷	31
期	22
DOI	https://doi.org/10.1002/adma.201807516
出版状态	已出版 - 5月 2019

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10.1002/adma.201807516

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title = "Stretchable organometal-halide-perovskite quantum-dot light-emitting diodes",

abstract = "Stretchable light-emitting diodes (LEDs) and electroluminescent capacitors have been reported to potentially bring new opportunities to wearable electronics; however, these devices lack in efficiency and/or stretchability. Here, a stretchable organometal-halide-perovskite quantum-dot LED with both high efficiency and mechanical compliancy is demonstrated. The hybrid device employs an ultrathin (<3 µm) LED structure conformed on a surface-wrinkled elastomer substrate. Its luminescent efficiency is up to 9.2 cd A−1, which is 70% higher than a control diode fabricated on the rigid indium tin oxide/glass substrate. Mechanical deformations up to 50% tensile strain do not induce significant loss of the electroluminescent property. The device can survive 1000 stretch–release cycles of 20% tensile strain with small fluctuations in electroluminescent performance.",

keywords = "Light-emitting diodes, Perovskites, Quantum-dots, Stretchable electronics",

author = "Li, {Yun Fei} and Chou, {Shu Yu} and Peng Huang and Changtao Xiao and Xiaofeng Liu and Yu Xie and Fangchao Zhao and Yilong Huang and Jing Feng and Haizheng Zhong and Sun, {Hong Bo} and Qibing Pei",

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AU - Li, Yun Fei

AU - Chou, Shu Yu

AU - Huang, Peng

AU - Xiao, Changtao

AU - Liu, Xiaofeng

AU - Xie, Yu

AU - Zhao, Fangchao

AU - Huang, Yilong

AU - Feng, Jing

AU - Zhong, Haizheng

AU - Sun, Hong Bo

AU - Pei, Qibing

PY - 2019/5

Y1 - 2019/5

N2 - Stretchable light-emitting diodes (LEDs) and electroluminescent capacitors have been reported to potentially bring new opportunities to wearable electronics; however, these devices lack in efficiency and/or stretchability. Here, a stretchable organometal-halide-perovskite quantum-dot LED with both high efficiency and mechanical compliancy is demonstrated. The hybrid device employs an ultrathin (<3 µm) LED structure conformed on a surface-wrinkled elastomer substrate. Its luminescent efficiency is up to 9.2 cd A−1, which is 70% higher than a control diode fabricated on the rigid indium tin oxide/glass substrate. Mechanical deformations up to 50% tensile strain do not induce significant loss of the electroluminescent property. The device can survive 1000 stretch–release cycles of 20% tensile strain with small fluctuations in electroluminescent performance.

AB - Stretchable light-emitting diodes (LEDs) and electroluminescent capacitors have been reported to potentially bring new opportunities to wearable electronics; however, these devices lack in efficiency and/or stretchability. Here, a stretchable organometal-halide-perovskite quantum-dot LED with both high efficiency and mechanical compliancy is demonstrated. The hybrid device employs an ultrathin (<3 µm) LED structure conformed on a surface-wrinkled elastomer substrate. Its luminescent efficiency is up to 9.2 cd A−1, which is 70% higher than a control diode fabricated on the rigid indium tin oxide/glass substrate. Mechanical deformations up to 50% tensile strain do not induce significant loss of the electroluminescent property. The device can survive 1000 stretch–release cycles of 20% tensile strain with small fluctuations in electroluminescent performance.

KW - Light-emitting diodes

KW - Perovskites

KW - Quantum-dots

KW - Stretchable electronics

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Stretchable organometal-halide-perovskite quantum-dot light-emitting diodes

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