Highly conductive and stretchable Ag nanowire/carbon nanotube hybrid conductors

Ju Yeon Woo; Kyun Kyu Kim; Jongsoo Lee; Ju Tae Kim; Chang Soo Han

doi:10.1088/0957-4484/25/28/285203

Highly conductive and stretchable Ag nanowire/carbon nanotube hybrid conductors

Ju Yeon Woo, Kyun Kyu Kim, Jongsoo Lee, Ju Tae Kim, Chang Soo Han

Department of Energy and Science and Engineering

ZKorea University Anam-Dong

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

50 Scopus citations

Abstract

Fabricating stretchable conductors through simple, cost-effective and scalable methods is a challenge. Here, we report on an approach used to develop nanowelded Ag nanowire/single-walled carbon nanotube (AgNW/SWCNT) hybrid films to be used as high-performance stretchable conductors. Plasmonic welding, which was done at the junctions of AgNWs in order to form hybrid AgNW/SWCNT conductors on an Ecoflex substrate, enabled excellent electrical and mechanical stability under large tensile strains of over 480% without the need to pre-strain. Furthermore, we demonstrate highly stretchable circuits that are used to power LED arrays. The LED arrays are formed using the plasmonic-welded AgNW/SWCNT/Ecoflex hybrid material, which demonstrates suitability for interconnector applications in flexible electronics.

Original language	English
Article number	285203
Journal	Nanotechnology
Volume	25
Issue number	28
DOIs	https://doi.org/10.1088/0957-4484/25/28/285203
State	Published - 18 Jul 2014

Keywords

carbon nanotube
plasmonic welding
silver nanowire
transparent conductive film

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10.1088/0957-4484/25/28/285203

Cite this

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abstract = "Fabricating stretchable conductors through simple, cost-effective and scalable methods is a challenge. Here, we report on an approach used to develop nanowelded Ag nanowire/single-walled carbon nanotube (AgNW/SWCNT) hybrid films to be used as high-performance stretchable conductors. Plasmonic welding, which was done at the junctions of AgNWs in order to form hybrid AgNW/SWCNT conductors on an Ecoflex substrate, enabled excellent electrical and mechanical stability under large tensile strains of over 480\% without the need to pre-strain. Furthermore, we demonstrate highly stretchable circuits that are used to power LED arrays. The LED arrays are formed using the plasmonic-welded AgNW/SWCNT/Ecoflex hybrid material, which demonstrates suitability for interconnector applications in flexible electronics.",

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T1 - Highly conductive and stretchable Ag nanowire/carbon nanotube hybrid conductors

AU - Woo, Ju Yeon

AU - Kim, Kyun Kyu

AU - Lee, Jongsoo

AU - Kim, Ju Tae

AU - Han, Chang Soo

PY - 2014/7/18

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AB - Fabricating stretchable conductors through simple, cost-effective and scalable methods is a challenge. Here, we report on an approach used to develop nanowelded Ag nanowire/single-walled carbon nanotube (AgNW/SWCNT) hybrid films to be used as high-performance stretchable conductors. Plasmonic welding, which was done at the junctions of AgNWs in order to form hybrid AgNW/SWCNT conductors on an Ecoflex substrate, enabled excellent electrical and mechanical stability under large tensile strains of over 480% without the need to pre-strain. Furthermore, we demonstrate highly stretchable circuits that are used to power LED arrays. The LED arrays are formed using the plasmonic-welded AgNW/SWCNT/Ecoflex hybrid material, which demonstrates suitability for interconnector applications in flexible electronics.

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KW - silver nanowire

KW - transparent conductive film

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Highly conductive and stretchable Ag nanowire/carbon nanotube hybrid conductors

Abstract

Keywords

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