Performance of OLED under mechanical strain: a review

OLEDs with convenient portability, low power consumption, and mechanical flexibility have successfully demonstrated their wide range of applications in display, lighting, and medical devices. With the biological requirement and continuous development of electronic technology, the OLEDs have opened u...

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Published in	Journal of materials science. Materials in electronics Vol. 31; no. 23; pp. 20688 - 20729
Main Authors	Sun, Nan, Jiang, Chengming, Li, Qikun, Tan, Dongchen, Bi, Sheng, Song, Jinhui
Format	Journal Article
Language	English
Published	New York Springer US 01.12.2020 Springer Nature B.V
Subjects	Characterization and Evaluation of Materials Chemistry and Materials Science Display devices Electrodes Electronic devices Materials Science Medical equipment Optical and Electronic Materials Power consumption Review Strain
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Abstract	OLEDs with convenient portability, low power consumption, and mechanical flexibility have successfully demonstrated their wide range of applications in display, lighting, and medical devices. With the biological requirement and continuous development of electronic technology, the OLEDs have opened up new possibilities for wearable electronic devices. Plentiful reports have revealed the progress of OLED devices with excellent performance of mechanical strain, involving flexible electrodes, processing technology, and advanced fabrication. In this review, the OLED processing methods are systematically discussed, and the development of flexible electrodes has been focused in terms of mechanical strain. In addition, the OLED performance with flexible electrodes also is described. The review provides a comprehensive understanding of OLEDs that can withstand the mechanical strain and achieve commercial maturity.
AbstractList	OLEDs with convenient portability, low power consumption, and mechanical flexibility have successfully demonstrated their wide range of applications in display, lighting, and medical devices. With the biological requirement and continuous development of electronic technology, the OLEDs have opened up new possibilities for wearable electronic devices. Plentiful reports have revealed the progress of OLED devices with excellent performance of mechanical strain, involving flexible electrodes, processing technology, and advanced fabrication. In this review, the OLED processing methods are systematically discussed, and the development of flexible electrodes has been focused in terms of mechanical strain. In addition, the OLED performance with flexible electrodes also is described. The review provides a comprehensive understanding of OLEDs that can withstand the mechanical strain and achieve commercial maturity.
Author	Sun, Nan Song, Jinhui Bi, Sheng Li, Qikun Tan, Dongchen Jiang, Chengming
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SubjectTerms	Characterization and Evaluation of Materials Chemistry and Materials Science Display devices Electrodes Electronic devices Materials Science Medical equipment Optical and Electronic Materials Power consumption Review Strain
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Title	Performance of OLED under mechanical strain: a review
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