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

Hanwool Yeon; Haneol Lee; Yeongin Kim; Doyoon Lee; Youngjoo Lee; Jong Sung Lee; Jiho Shin; Chanyeol Choi; Ji Hoon Kang; Jun Min Suh; Hyunseok Kim; Hyun S. Kum; Jaeyong Lee; Daeyeon Kim; Kyul Ko; Boo Soo Ma; Peng Lin; Sangwook Han; Sungkyu Kim; Sang Hoon Bae; Taek Soo Kim; Min Chul Park; Young Chang Joo; Eunjoo Kim; Jiyeon Han; Jeehwan Kim

doi:10.1126/sciadv.abg8459

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

Hanwool Yeon, Haneol Lee, Yeongin Kim, Doyoon Lee, Youngjoo Lee, Jong Sung Lee, Jiho Shin, Chanyeol Choi, Ji Hoon Kang, Jun Min Suh, Hyunseok Kim, Hyun S. Kum, Jaeyong Lee, Daeyeon Kim, Kyul Ko, Boo Soo Ma, Peng Lin, Sangwook Han, Sungkyu Kim, Sang Hoon BaeTaek Soo Kim, Min Chul Park, Young Chang Joo, Eunjoo Kim, Jiyeon Han, Jeehwan Kim

Department of Electrical and Electronic Engineering

Research output: Contribution to journal › Article › peer-review

34 Citations (Scopus)

Abstract

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.

Original language	English
Article number	eabg8459
Journal	Science Advances
Volume	7
Issue number	27
DOIs	https://doi.org/10.1126/sciadv.abg8459
Publication status	Published - 2021 Jun

Bibliographical note

Funding Information:
Acknowledgments Funding: This work is supported by AMOREPACIFIC. Author contributions: H.Y., J.H., and J.K.

Publisher Copyright:
Copyright © 2021 The Authors, some rights reserved.

All Science Journal Classification (ASJC) codes

General

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Cite this

Yeon, H., Lee, H., Kim, Y., Lee, D., Lee, Y., Lee, J. S., Shin, J., Choi, C., Kang, J. H., Suh, J. M., Kim, H., Kum, H. S., Lee, J., Kim, D., Ko, K., Ma, B. S., Lin, P., Han, S., Kim, S., ... Kim, J. (2021). Long-term reliable physical health monitoring by sweat pore–inspired perforated electronic skins. Science Advances, 7(27), [eabg8459]. https://doi.org/10.1126/sciadv.abg8459

@article{2f59b22f203b479da84501b72f27e037,

title = "Long-term reliable physical health monitoring by sweat pore–inspired perforated electronic skins",

abstract = "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{\textquoteright}s health over a period of weeks.",

author = "Hanwool Yeon and Haneol Lee and Yeongin Kim and Doyoon Lee and Youngjoo Lee and Lee, {Jong Sung} and Jiho Shin and Chanyeol Choi and Kang, {Ji Hoon} and Suh, {Jun Min} and Hyunseok Kim and Kum, {Hyun S.} and Jaeyong Lee and Daeyeon Kim and Kyul Ko and Ma, {Boo Soo} and Peng Lin and Sangwook Han and Sungkyu Kim and Bae, {Sang Hoon} and Kim, {Taek Soo} and Park, {Min Chul} and Joo, {Young Chang} and Eunjoo Kim and Jiyeon Han and Jeehwan Kim",

note = "Funding Information: Acknowledgments Funding: This work is supported by AMOREPACIFIC. Author contributions: H.Y., J.H., and J.K. Publisher Copyright: Copyright {\textcopyright} 2021 The Authors, some rights reserved.",

year = "2021",

month = jun,

doi = "10.1126/sciadv.abg8459",

language = "English",

volume = "7",

journal = "Science advances",

issn = "2375-2548",

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Yeon, H, Lee, H, Kim, Y, Lee, D, Lee, Y, Lee, JS, Shin, J, Choi, C, Kang, JH, Suh, JM, Kim, H, Kum, HS, Lee, J, Kim, D, Ko, K, Ma, BS, Lin, P, Han, S, Kim, S, Bae, SH, Kim, TS, Park, MC, Joo, YC, Kim, E, Han, J & Kim, J 2021, 'Long-term reliable physical health monitoring by sweat pore–inspired perforated electronic skins', Science Advances, vol. 7, no. 27, eabg8459. https://doi.org/10.1126/sciadv.abg8459

TY - JOUR

T1 - Long-term reliable physical health monitoring by sweat pore–inspired perforated electronic skins

AU - Yeon, Hanwool

AU - Lee, Haneol

AU - Kim, Yeongin

AU - Lee, Doyoon

AU - Lee, Youngjoo

AU - Lee, Jong Sung

AU - Shin, Jiho

AU - Choi, Chanyeol

AU - Kang, Ji Hoon

AU - Suh, Jun Min

AU - Kim, Hyunseok

AU - Kum, Hyun S.

AU - Lee, Jaeyong

AU - Kim, Daeyeon

AU - Ko, Kyul

AU - Ma, Boo Soo

AU - Lin, Peng

AU - Han, Sangwook

AU - Kim, Sungkyu

AU - Bae, Sang Hoon

AU - Kim, Taek Soo

AU - Park, Min Chul

AU - Joo, Young Chang

AU - Kim, Eunjoo

AU - Han, Jiyeon

AU - Kim, Jeehwan

N1 - Funding Information: Acknowledgments Funding: This work is supported by AMOREPACIFIC. Author contributions: H.Y., J.H., and J.K. Publisher Copyright: Copyright © 2021 The Authors, some rights reserved.

PY - 2021/6

Y1 - 2021/6

N2 - 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.

AB - 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.

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DO - 10.1126/sciadv.abg8459

M3 - Article

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AN - SCOPUS:85109042121

SN - 2375-2548

VL - 7

JO - Science advances

JF - Science advances

IS - 27

M1 - eabg8459

ER -

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

Abstract

Bibliographical note

All Science Journal Classification (ASJC) codes

UN SDGs

Access to Document

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