Long-term reliable physical health monitoring by sweat pore-inspired perforated electronic skins

Electronic skins (e-skins)-electronic sensors mechanically compliant to human skin-have long been developed as an ideal electronic platform for noninvasive human health monitoring. For reliable physical health monitoring, the interface between the e-skin and human skin must be conformal and intact c...

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Veröffentlicht in:	Science advances 2021-06, Vol.7 (27)
Hauptverfasser:	Yeon, Hanwool, Lee, Haneol, Kim, Yeongin, Lee, Doyoon, Lee, Youngjoo, Lee, Jong-Sung, Shin, Jiho, Choi, Chanyeol, Kang, Ji-Hoon, Suh, Jun Min, Kim, Hyunseok, Kum, Hyun S, Lee, Jaeyong, Kim, Daeyeon, Ko, Kyul, Ma, Boo Soo, Lin, Peng, Han, Sangwook, Kim, Sungkyu, Bae, Sang-Hoon, Kim, Taek-Soo, Park, Min-Chul, Joo, Young-Chang, Kim, Eunjoo, Han, Jiyeon, Kim, Jeehwan
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Sprache:	eng
Schlagworte:	Applied Physics Materials Science SciAdv r-articles
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creator	Yeon, Hanwool Lee, Haneol Kim, Yeongin Lee, Doyoon Lee, Youngjoo Lee, Jong-Sung Shin, Jiho Choi, Chanyeol Kang, Ji-Hoon Suh, Jun Min Kim, Hyunseok Kum, Hyun S Lee, Jaeyong Kim, Daeyeon Ko, Kyul Ma, Boo Soo Lin, Peng Han, Sangwook Kim, Sungkyu Bae, Sang-Hoon Kim, Taek-Soo Park, Min-Chul Joo, Young-Chang Kim, Eunjoo Han, Jiyeon Kim, Jeehwan
description	Electronic skins (e-skins)-electronic sensors mechanically compliant to human skin-have long been developed as an ideal electronic platform for noninvasive human health monitoring. For reliable physical health monitoring, the interface between the e-skin and human skin must be conformal and intact consistently. However, conventional e-skins cannot perfectly permeate sweat in normal day-to-day activities, resulting in degradation of the intimate interface over time and impeding stable physical sensing. Here, we present a sweat pore-inspired perforated e-skin that can effectively suppress sweat accumulation and allow inorganic sensors to obtain physical health information without malfunctioning. The auxetic dumbbell through-hole patterns in perforated e-skins lead to synergistic effects on physical properties including mechanical reliability, conformability, areal mass density, and adhesion to the skin. The perforated e-skin allows one to laminate onto the skin with consistent homeostasis, enabling multiple inorganic sensors on the skin to reliably monitor the wearer's health over a period of weeks.
doi_str_mv	10.1126/sciadv.abg8459
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For reliable physical health monitoring, the interface between the e-skin and human skin must be conformal and intact consistently. However, conventional e-skins cannot perfectly permeate sweat in normal day-to-day activities, resulting in degradation of the intimate interface over time and impeding stable physical sensing. Here, we present a sweat pore-inspired perforated e-skin that can effectively suppress sweat accumulation and allow inorganic sensors to obtain physical health information without malfunctioning. The auxetic dumbbell through-hole patterns in perforated e-skins lead to synergistic effects on physical properties including mechanical reliability, conformability, areal mass density, and adhesion to the skin. 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subjects	Applied Physics Materials Science SciAdv r-articles
title	Long-term reliable physical health monitoring by sweat pore-inspired perforated electronic skins
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