Electrically conductive graphene-coated polyurethane foam and its epoxy composites

A facile method is presented to manufacture electrically conductive graphene-coated polyurethane foam (GPF) by dip-coating polyurethane (PU) foams in a graphene (GN) aqueous suspension containing cellulose nanowhisker (CNW) as dispersion assistant. The electrical conductivity of the GPF/epoxy compos...

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Published inComposites communications Vol. 7; pp. 1 - 6
Main Authors Xinzhao, Xu, Guoming, Lin, Dongyan, Liu, Guoxin, Sui, Rui, Yang
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.03.2018
Subjects
Cellulose nanowhiskers
Electrical conductivity
Graphene-coated polyurethane foams
Polymer composites
Polymer composites
Electrical conductivity
Cellulose nanowhiskers
Graphene-coated polyurethane foams
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Abstract A facile method is presented to manufacture electrically conductive graphene-coated polyurethane foam (GPF) by dip-coating polyurethane (PU) foams in a graphene (GN) aqueous suspension containing cellulose nanowhisker (CNW) as dispersion assistant. The electrical conductivity of the GPF/epoxy composites reaches 2.46S/m at a relatively low GN content (0.9wt%), and the electrical percolation threshold is around 0.3wt%. The structure observations reveal that the high electrical conductivity results from the 3D networks formed by GN nanosheets coated on the inner surface of PU foams. Moreover, CNW is a key factor to facilitate the formation of GN networks on the PU skeleton. The highest electrical conductivity is obtained at the CNW / GN weight ratio of 1:20. •Highly conductive GPFs and GPF/epoxy composites were fabricated via template-based dip-casting and vacuum assisted infiltration.•Integral 3D GN networks were formed in the composites.•CNW facilitated the formation of GN networks on the PU skeleton.
AbstractList A facile method is presented to manufacture electrically conductive graphene-coated polyurethane foam (GPF) by dip-coating polyurethane (PU) foams in a graphene (GN) aqueous suspension containing cellulose nanowhisker (CNW) as dispersion assistant. The electrical conductivity of the GPF/epoxy composites reaches 2.46S/m at a relatively low GN content (0.9wt%), and the electrical percolation threshold is around 0.3wt%. The structure observations reveal that the high electrical conductivity results from the 3D networks formed by GN nanosheets coated on the inner surface of PU foams. Moreover, CNW is a key factor to facilitate the formation of GN networks on the PU skeleton. The highest electrical conductivity is obtained at the CNW / GN weight ratio of 1:20. •Highly conductive GPFs and GPF/epoxy composites were fabricated via template-based dip-casting and vacuum assisted infiltration.•Integral 3D GN networks were formed in the composites.•CNW facilitated the formation of GN networks on the PU skeleton.
Author Xinzhao, Xu
Guoxin, Sui
Guoming, Lin
Dongyan, Liu
Rui, Yang
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Keywords Polymer composites
Electrical conductivity
Cellulose nanowhiskers
Graphene-coated polyurethane foams
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Snippet A facile method is presented to manufacture electrically conductive graphene-coated polyurethane foam (GPF) by dip-coating polyurethane (PU) foams in a...
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SubjectTerms Cellulose nanowhiskers
Electrical conductivity
Graphene-coated polyurethane foams
Polymer composites
Title Electrically conductive graphene-coated polyurethane foam and its epoxy composites
URI https://dx.doi.org/10.1016/j.coco.2017.11.003
Volume 7
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