Coaxial struts and microfractured structures of compressible thermoelectric foams for self-powered pressure sensors

Authors
Oh, JinwooKim, Jong-HoPark, Kyung TaeJo, KiyoungLee, Jong-ChanKim, HeesukSon, Jeong Gon
Issue Date
2018-10-14
Publisher
ROYAL SOC CHEMISTRY
Citation
NANOSCALE, v.10, no.38, pp.18370 - 18377
Abstract
Long-term operation of wearable pressure sensors to detect body movement requires self-powered human-based energy sources to minimize the need for recharging. Recently, pressure sensors with thermoelectric properties based on conducting polymers have been reported; however, these devices are limited in their ability to simultaneously achieve sufficient power generation and sensitivity of the sensor. In this article, we suggest a coaxial strut structure of poly(styrene-ethylene/butylene-styrene)(SEBS)-poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate)(PEDOT:PSS)-melamine foam (MF) with a fractured microstructure for a highly sensitive, efficient self-powered pressure sensor. In the coaxial struts, the MF core provides a compressible and elastic framework; the intermediate PEDOT:PSS acts as a conductor and a thermoelectric material; and the SEBS shell ensures mechanical stability and resilience to stabilize the brittle PEDOT:PSS layer under high loading conditions. Additionally, by compressing the coaxial foam to 1/20, partial microfracture of PEDOT:PSS occurs only in the SEBS shell; thus, the pressure sensitivity increases significantly while maintaining high conductivity and thermoelectric performance. The coaxial foam was assembled into a wearable TEG to generate 338 nW from the forearms and demonstrate the high sensitivity of pressure sensors without an external power supply.
Keywords
FABRICATION; NETWORKS; PEDOTPSS; STRAIN; SKIN; FABRICATION; NETWORKS; PEDOTPSS; STRAIN; SKIN; 유연열전; 스폰지열전; 자가구동; 압력센서
ISSN
2040-3364
URI
https://pubs.kist.re.kr/handle/201004/120794
DOI
10.1039/c8nr04582h
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KIST Article > 2018
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