Aligned Silver Nanowires Enabled Highly Stretchable and Transparent Electrodes with Unusual Conductive Property

Hebing Hu; Shichao Wang; Shancheng Wang; Guowei Liu; Tun Cao; Yi Long

doi:10.1002/adfm.201902922

Aligned Silver Nanowires Enabled Highly Stretchable and Transparent Electrodes with Unusual Conductive Property

Hebing Hu, Shichao Wang, Shancheng Wang, Guowei Liu, Tun Cao, Yi Long^*

^*Corresponding author for this work

Department of Physics

Research output: Contribution to journal › Journal article › peer-review

114 Citations (Scopus)

Abstract

Transparent conductors for the next generation of soft electronic devices need to be highly stretchable, conductive, and transparent, while an inevitable challenge lies in enhancing them simultaneously. Cost-effective silver nanowires (AgNWs) are widely used but the conventional random network yields a high junction resistance as well as degraded conductivity in the stretched state. Here, a novel, facile, and versatile agitation-assisted assembly approach is reported to control the orientation direction and density of AgNWs and to layer-by-layer deposit the AgNWs monolayer or multilayers onto the prestrained soft substrate. This electrode demonstrates an unprecedented low sheet resistance of 2.8 Ω sq⁻¹ as well as high transparency of 85% and high stretchability of 40%. It is interesting to note that contrary to most other reports, such a device shows higher conductivity in the stretched state compared to the released state.

Original language	English
Article number	1902922
Number of pages	10
Journal	Advanced Functional Materials
Volume	29
Issue number	33
DOIs	https://doi.org/10.1002/adfm.201902922
Publication status	Published - 15 Aug 2019

User-Defined Keywords

conductivity
layer-by-layer agitation-assisted alignment
silver nanowires
stretchability
transparent electrode

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10.1002/adfm.201902922

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title = "Aligned Silver Nanowires Enabled Highly Stretchable and Transparent Electrodes with Unusual Conductive Property",

abstract = "Transparent conductors for the next generation of soft electronic devices need to be highly stretchable, conductive, and transparent, while an inevitable challenge lies in enhancing them simultaneously. Cost-effective silver nanowires (AgNWs) are widely used but the conventional random network yields a high junction resistance as well as degraded conductivity in the stretched state. Here, a novel, facile, and versatile agitation-assisted assembly approach is reported to control the orientation direction and density of AgNWs and to layer-by-layer deposit the AgNWs monolayer or multilayers onto the prestrained soft substrate. This electrode demonstrates an unprecedented low sheet resistance of 2.8 Ω sq−1 as well as high transparency of 85% and high stretchability of 40%. It is interesting to note that contrary to most other reports, such a device shows higher conductivity in the stretched state compared to the released state.",

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author = "Hebing Hu and Shichao Wang and Shancheng Wang and Guowei Liu and Tun Cao and Yi Long",

note = "The Principal Investigator of this project (Y.L.) wishes to thank Sino-Singapore International Joint Research Institute for funding support. This research is supported by the Singapore Ministry of Education (MOE) Academic Research Fund Tier one RG200/17, and the National Research Foundation, Prime Minister's Office, Singapore under its Campus for Research Excellence and Technological Enterprise (CREATE) programme. Publisher Copyright: {\textcopyright} 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim",

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doi = "10.1002/adfm.201902922",

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AU - Hu, Hebing

AU - Wang, Shichao

AU - Wang, Shancheng

AU - Liu, Guowei

AU - Cao, Tun

AU - Long, Yi

N1 - The Principal Investigator of this project (Y.L.) wishes to thank Sino-Singapore International Joint Research Institute for funding support. This research is supported by the Singapore Ministry of Education (MOE) Academic Research Fund Tier one RG200/17, and the National Research Foundation, Prime Minister's Office, Singapore under its Campus for Research Excellence and Technological Enterprise (CREATE) programme. Publisher Copyright: © 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

PY - 2019/8/15

Y1 - 2019/8/15

N2 - Transparent conductors for the next generation of soft electronic devices need to be highly stretchable, conductive, and transparent, while an inevitable challenge lies in enhancing them simultaneously. Cost-effective silver nanowires (AgNWs) are widely used but the conventional random network yields a high junction resistance as well as degraded conductivity in the stretched state. Here, a novel, facile, and versatile agitation-assisted assembly approach is reported to control the orientation direction and density of AgNWs and to layer-by-layer deposit the AgNWs monolayer or multilayers onto the prestrained soft substrate. This electrode demonstrates an unprecedented low sheet resistance of 2.8 Ω sq−1 as well as high transparency of 85% and high stretchability of 40%. It is interesting to note that contrary to most other reports, such a device shows higher conductivity in the stretched state compared to the released state.

AB - Transparent conductors for the next generation of soft electronic devices need to be highly stretchable, conductive, and transparent, while an inevitable challenge lies in enhancing them simultaneously. Cost-effective silver nanowires (AgNWs) are widely used but the conventional random network yields a high junction resistance as well as degraded conductivity in the stretched state. Here, a novel, facile, and versatile agitation-assisted assembly approach is reported to control the orientation direction and density of AgNWs and to layer-by-layer deposit the AgNWs monolayer or multilayers onto the prestrained soft substrate. This electrode demonstrates an unprecedented low sheet resistance of 2.8 Ω sq−1 as well as high transparency of 85% and high stretchability of 40%. It is interesting to note that contrary to most other reports, such a device shows higher conductivity in the stretched state compared to the released state.

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KW - transparent electrode

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JF - Advanced Functional Materials

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Aligned Silver Nanowires Enabled Highly Stretchable and Transparent Electrodes with Unusual Conductive Property

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