Crack-induced Ag nanowire networks for transparent, stretchable, and highly sensitive strain sensors

Crack-induced Ag nanowire networks for transparent, stretchable, and highly sensitive strain sensors

Abstract Crack-based strain sensor systems have been known for its high sensitivity, but suffer from the small fracture strain of the thin metal films employed in the sensor which results in its negligible stretchability. Herein, we fabricated a transparent (>90% at 550 nm wavelength), stretchabl...

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Main Authors: Chan-Jae Lee, Keum Hwan Park, Chul Jong Han, Min Suk Oh, Banseok You, Young-Seok Kim, Jong-Woong Kim
Format: Article
Language:English
Published: Nature Publishing Group 2017-08-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-08484-y
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spelling doaj-5f9d631f8f014f0d84cd5079f39485e92020-12-08T02:41:27ZengNature Publishing GroupScientific Reports2045-23222017-08-01711810.1038/s41598-017-08484-yCrack-induced Ag nanowire networks for transparent, stretchable, and highly sensitive strain sensorsChan-Jae Lee0Keum Hwan Park1Chul Jong Han2Min Suk Oh3Banseok You4Young-Seok Kim5Jong-Woong Kim6Display Materials & Components Research Centre, Korea Electronics Technology InstituteDisplay Materials & Components Research Centre, Korea Electronics Technology InstituteDisplay Materials & Components Research Centre, Korea Electronics Technology InstituteDisplay Materials & Components Research Centre, Korea Electronics Technology InstituteDisplay Materials & Components Research Centre, Korea Electronics Technology InstituteDisplay Materials & Components Research Centre, Korea Electronics Technology InstituteDisplay Materials & Components Research Centre, Korea Electronics Technology InstituteAbstract Crack-based strain sensor systems have been known for its high sensitivity, but suffer from the small fracture strain of the thin metal films employed in the sensor which results in its negligible stretchability. Herein, we fabricated a transparent (>90% at 550 nm wavelength), stretchable (up to 100%), and sensitive (gauge factor (GF) of 30 at 100% strain) strain gauge by depositing an encapsulated crack-induced Ag nanowire (AgNW) network on a hydroxylated poly(dimethylsiloxane) (PDMS) film. Stretching the encapsulated AgNWs/PDMS resulted in the formation of a percolation network of nanowire ligaments with abundant percolation paths. The encapsulating polymer was designed to adhere strongly to both the AgNW and PDMS. The improved adhesion ensured the resistance of the crack-induced network of AgNWs varied reversibly, stably, and sensitively when stretched and released, at strains of up to 100%. The developed sensor successfully detected human motions when applied to the skin.https://doi.org/10.1038/s41598-017-08484-y
collection DOAJ
language English
format Article
sources DOAJ
author Chan-Jae Lee
Keum Hwan Park
Chul Jong Han
Min Suk Oh
Banseok You
Young-Seok Kim
Jong-Woong Kim
spellingShingle Chan-Jae Lee
Keum Hwan Park
Chul Jong Han
Min Suk Oh
Banseok You
Young-Seok Kim
Jong-Woong Kim
Crack-induced Ag nanowire networks for transparent, stretchable, and highly sensitive strain sensors
Scientific Reports
author_facet Chan-Jae Lee
Keum Hwan Park
Chul Jong Han
Min Suk Oh
Banseok You
Young-Seok Kim
Jong-Woong Kim
author_sort Chan-Jae Lee
title Crack-induced Ag nanowire networks for transparent, stretchable, and highly sensitive strain sensors
title_short Crack-induced Ag nanowire networks for transparent, stretchable, and highly sensitive strain sensors
title_full Crack-induced Ag nanowire networks for transparent, stretchable, and highly sensitive strain sensors
title_fullStr Crack-induced Ag nanowire networks for transparent, stretchable, and highly sensitive strain sensors
title_full_unstemmed Crack-induced Ag nanowire networks for transparent, stretchable, and highly sensitive strain sensors
title_sort crack-induced ag nanowire networks for transparent, stretchable, and highly sensitive strain sensors
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-08-01
description Abstract Crack-based strain sensor systems have been known for its high sensitivity, but suffer from the small fracture strain of the thin metal films employed in the sensor which results in its negligible stretchability. Herein, we fabricated a transparent (>90% at 550 nm wavelength), stretchable (up to 100%), and sensitive (gauge factor (GF) of 30 at 100% strain) strain gauge by depositing an encapsulated crack-induced Ag nanowire (AgNW) network on a hydroxylated poly(dimethylsiloxane) (PDMS) film. Stretching the encapsulated AgNWs/PDMS resulted in the formation of a percolation network of nanowire ligaments with abundant percolation paths. The encapsulating polymer was designed to adhere strongly to both the AgNW and PDMS. The improved adhesion ensured the resistance of the crack-induced network of AgNWs varied reversibly, stably, and sensitively when stretched and released, at strains of up to 100%. The developed sensor successfully detected human motions when applied to the skin.
url https://doi.org/10.1038/s41598-017-08484-y
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