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Intrinsically stretchable OLEDs with a designed morphology-sustainable layer and stretchable metal cathode

Engineering and Technology

Intrinsically stretchable OLEDs with a designed morphology-sustainable layer and stretchable metal cathode

J. Oh, K. Jeon, et al.

Discover how innovative researchers Je-Heon Oh, Kun-Hoo Jeon, and Jin-Woo Park have developed intrinsically stretchable organic light-emitting diodes (is-OLEDs) that defy traditional performance limitations, achieving remarkable luminance and durability through advanced materials and fabrication techniques.

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~3 min • Beginner • English
Abstract
The development of wearable devices has increased the need for organic light-emitting diodes (OLEDs) that are soft, stretchable, and can integrate seamlessly with the human body. Traditional intrinsically stretchable OLEDs (is-OLED) often suffer from reduced performance due to orthogonal solvent problem and lamination fabrication process, which can cause defects and delamination. To overcome these challenges, we developed a sequentially coated is-OLED and confirmed the maintenance of the designed morphologies of each layer and a highly stretchable metallic is-cathode. Our is-OLEDs achieved a maximum total luminance of 3151 cd m^-2 and a total current efficiency of 5.4 cd A^-1. It also demonstrated superior durability, with the ability to stretch up to 70% and maintain 80% luminance after 300 cycles at 40% strain. This advancement suggests a promising future for durable and efficient soft electronic devices.
Publisher
npj Flexible Electronics
Published On
Jul 26, 2024
Authors
Je-Heon Oh, Kun-Hoo Jeon, Jin-Woo Park
DOI
https://doi.org/https://doi.org/10.1038/s41528-024-00332-0
Tags
intrinsically stretchable
organic light-emitting diodes
is-OLEDs
electron transport layer
stretchable metallic cathode
current efficiency
durable soft electronics

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