Very long Ag nanowire synthesis and its application in a highly transparent, conductive and flexible metal electrode touch panel

Very long Ag nanowire synthesis and its application in a highly transparent, conductive and flexible metal electrode touch panel

The future electronics will be soft, flexible and even stretchable to be more human friendly in the form of wearable computers. However, conventional electronic materials are usually brittle. Recently, carbon based materials are intensively investigated as a good candidate for flexible electronics b...

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Bibliographic Details
Published in:Nanoscale Vol. 4; no. 20; p. 6408
Main Authors: Lee, Jinhwan, Lee, Phillip, Lee, Hyungman, Lee, Dongjin, Lee, Seung Seob, Ko, Seung Hwan
Format: Journal Article
Language:English
Published: England 21-10-2012
Subjects:
Electric Conductivity
Electrical Equipment and Supplies
Electrodes
Equipment Design
Nanostructures
Nanotechnology - instrumentation
Nanowires - chemistry
Nanowires - ultrastructure
Silver - chemistry
Online Access:Get more information
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Summary:The future electronics will be soft, flexible and even stretchable to be more human friendly in the form of wearable computers. However, conventional electronic materials are usually brittle. Recently, carbon based materials are intensively investigated as a good candidate for flexible electronics but with limited mechanical and electrical performances. Metal is still the best material for electronics with great electrical properties but with poor transparency and mechanical performance. Here we present a simple approach to develop a synthesis method for very long metallic nanowires and apply them as new types of high performance flexible and transparent metal conductors as an alternative to carbon nanotubes, graphene and short nanowire based flexible transparent conductors and indium tin oxide based brittle transparent conductors. We found that very long metallic nanowire network conductors combined with a low temperature laser nano-welding process enabled superior transparent flexible conductors with high transmittance and high electrical conductivity. Further, we demonstrated highly flexible metal conductor LED circuits and transparent touch panels. The highly flexible and transparent metal conductors can be mounted on any non-planar surfaces and applied for various opto-electronics and ultimately for future wearable electronics.
ISSN:2040-3372
DOI:10.1039/c2nr31254a