Stretchable Conductive Composites from Cu–Ag Nanowire Felt

Materials that retain a high conductivity under strain are essential for wearable electronics. This article describes a conductive, stretchable composite consisting of a Cu–Ag core–shell nanowire felt infiltrated with a silicone elastomer. This composite exhibits a retention of conductivity under st...

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Bibliographic Details
Published in:ACS nano 2018-04, Vol.12 (4), p.3689-3698
Main Authors: Catenacci, Matthew J, Reyes, Christopher, Cruz, Mutya A, Wiley, Benjamin J
Format: Article
Language:English
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Summary:Materials that retain a high conductivity under strain are essential for wearable electronics. This article describes a conductive, stretchable composite consisting of a Cu–Ag core–shell nanowire felt infiltrated with a silicone elastomer. This composite exhibits a retention of conductivity under strain that is superior to any composite with a conductivity greater than 1000 S cm–1. This work also shows how the mechanical properties, conductivity, and deformation mechanism of the composite changes as a function of the stiffness of the silicone matrix. The retention of conductivity under strain was found to decrease as the Young’s modulus of the matrix increased. This was attributed to void formation as a result of debonding between the nanowire felt and the elastomer. The nanowire composite was also patterned to create serpentine circuits with a stretchability of 300%.
ISSN:1936-0851
1936-086X
DOI:10.1021/acsnano.8b00887