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

School of Material Science and Engineering

Research output: Contribution to journal › Article › peer-review

117 Citations (Scopus)

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.

Original language	English
Article number	1807516
Journal	Advanced Materials
Volume	31
Issue number	22
DOIs	https://doi.org/10.1002/adma.201807516
Publication status	Published - May 2019

Keywords

Light-emitting diodes
Perovskites
Quantum-dots
Stretchable electronics

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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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language = "English",

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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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DO - 10.1002/adma.201807516

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SN - 0935-9648

VL - 31

JO - Advanced Materials

JF - Advanced Materials

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ER -

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

Abstract

Keywords

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