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Self-healable polymer complex with a giant ionic thermoelectric effect

Engineering and Technology

Self-healable polymer complex with a giant ionic thermoelectric effect

D. Kim, Z. A. Akbar, et al.

Discover an innovative stretchable and self-healable polymer, PEDOT:PAAMPSA:PA, with impressive ionic thermoelectric performance. Achieving an ionic figure-of-merit of 12.3, this research by Dong-Hu Kim, Zico Alaia Akbar, Yoga Trianzar Malik, Ju-Won Jeon, and Sung-Yeon Jang highlights the potential for sustainable self-powering sources using ITEC modules.

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Playback language: English
Abstract
This study introduces a stretchable/self-healable polymer, PEDOT:PAAMPSA:PA, exhibiting high ionic thermoelectric (ITE) properties, achieving an ionic figure-of-merit (ZTᵢ) of 12.3 at 70% relative humidity (RH). ITE properties are optimized by controlling ion carrier concentration, diffusion coefficient, and Eastman entropy. High stretchability and self-healing are attributed to dynamic interactions between components, with ITE properties retained under repeated mechanical stress. An ionic thermoelectric capacitor (ITEC) device using PEDOT:PAAMPSA:PA achieves a maximum power output of 4.59 µW·m⁻² and energy density of 1.95 mJ·m⁻². A 9-pair ITEC module generates 0.37 V·K⁻¹ thermovoltage, demonstrating potential for self-powering sources.
Publisher
Nature Communications
Published On
Jun 05, 2023
Authors
Dong-Hu Kim, Zico Alaia Akbar, Yoga Trianzar Malik, Ju-Won Jeon, Sung-Yeon Jang
Tags
stretchable polymer
self-healing
ionic thermoelectric
ionic figure-of-merit
ITEC device
power output
energy density

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