Carbon nanotubes and silver flakes filled epoxy resin for new hybrid conductive adhesives

Combining conductive micro and nanofillers is a new way to improve electrical conductivity. Micrometric silver flakes and nanometric carbon nanotubes (CNTs) exhibit high electrical conductivity. A new type of hybrid conductive adhesives filled with silver flakes and carbon nanotubes (DWCNTs or MWCNT...

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Published inMicroelectronics and reliability Vol. 51; no. 7; pp. 1230 - 1234
Main Authors Marcq, F., Demont, P., Monfraix, P., Peigney, A., Laurent, Ch, Falat, T., Courtade, F., Jamin, T.
Format Journal Article Conference Proceeding
LanguageEnglish
Published Kidlington Elsevier Ltd 01.07.2011
Elsevier
Subjects
Carbon nanotubes
Chemical Sciences
Cross-disciplinary physics: materials science; rheology
Electrical conductivity
Electrical resistivity
Exact sciences and technology
Flakes
Hybrid composites
Material chemistry
Materials science
Nanoscale materials and structures: fabrication and characterization
Nanostructure
Nanotubes
Physics
Resistivity
Silver
Silver
Electrical conductivity
Composite materials
Ambient temperature
Hybrid material
Epoxy resin
Carbon nanotubes
Mechanical properties
Conducting materials
Electrical characteristic
Adhesive material
MWCNTs
SEM
DWCNTs
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Abstract Combining conductive micro and nanofillers is a new way to improve electrical conductivity. Micrometric silver flakes and nanometric carbon nanotubes (CNTs) exhibit high electrical conductivity. A new type of hybrid conductive adhesives filled with silver flakes and carbon nanotubes (DWCNTs or MWCNTs) were investigated. High electrical conductivity is measured as well as improved mechanical properties at room temperature. Small agglomerates and free MWCNTs dispersed in the silver/epoxy composites improve the electrical conductivity and a synergistic effect between MWCNTs and micro sized silver flakes is observed in hybrid composites. Glassy and rubbery storage moduli of the hybrid composites increase with increasing silver loading at fixed CNTs volume fraction. High value of the storage modulus, measured in DWCNTs/μAg hybrid composites at rubbery state, is caused by strong agglomeration of DWCNTs bundles. The electrical and mechanical properties are consistent with the morphologies of the hybrid composites characterized by SEM.
AbstractList Combining conductive micro and nanofillers is a new way to improve electrical conductivity. Micrometric silver flakes and nanometric carbon nanotubes (CNTs) exhibit high electrical conductivity. A new type of hybrid conductive adhesives filled with silver flakes and carbon nanotubes (DWCNTs or MWCNTs) were investigated. High electrical conductivity is measured as well as improved mechanical properties at room temperature. Small agglomerates and free MWCNTs dispersed in the silver/epoxy composites improve the electrical conductivity and a synergistic effect between MWCNTs and micro sized silver flakes is observed in hybrid composites. Glassy and rubbery storage moduli of the hybrid composites increase with increasing silver loading at fixed CNTs volume fraction. High value of the storage modulus, measured in DWCNTs/μAg hybrid composites at rubbery state, is caused by strong agglomeration of DWCNTs bundles. The electrical and mechanical properties are consistent with the morphologies of the hybrid composites characterized by SEM.
Combining conductive micro and nanofillers is a new way to improve electrical conductivity. Micrometric silver flakes and nanometric carbon nanotubes (CNTs) exhibit high electrical conductivity. A new type of hybrid conductive adhesives filled with silver flakes and carbon nanotubes (DWCNTs or MWCNTs) were investigated. High electrical conductivity is measured as well as improved mechanical properties at room temperature. Small agglomerates and free MWCNTs dispersed in the silver/epoxy composites improve the electrical conductivity and a synergistic effect between MWCNTs and micro sized silver flakes is observed in hybrid composites. Glassy and rubbery storage moduli of the hybrid composites increase with increasing silver loading at fixed CNTs volume fraction. High value of the storage modulus, measured in DWCNTs/[micro]Ag hybrid composites at rubbery state, is caused by strong agglomeration of DWCNTs bundles. The electrical and mechanical properties are consistent with the morphologies of the hybrid composites characterized by SEM.
Author Peigney, A.
Marcq, F.
Monfraix, P.
Falat, T.
Laurent, Ch
Jamin, T.
Demont, P.
Courtade, F.
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  organization: Centre National d’Etudes Spatiales 18 Av. E. Belin 31401 Toulouse Cedex 9, France
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ContentType Journal Article
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2015 INIST-CNRS
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Issue 7
Keywords Silver
Electrical conductivity
Composite materials
Ambient temperature
Hybrid material
Epoxy resin
Carbon nanotubes
Mechanical properties
Conducting materials
Electrical characteristic
Adhesive material
MWCNTs
SEM
DWCNTs
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Snippet Combining conductive micro and nanofillers is a new way to improve electrical conductivity. Micrometric silver flakes and nanometric carbon nanotubes (CNTs)...
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SubjectTerms Carbon nanotubes
Chemical Sciences
Cross-disciplinary physics: materials science; rheology
Electrical conductivity
Electrical resistivity
Exact sciences and technology
Flakes
Hybrid composites
Material chemistry
Materials science
Nanoscale materials and structures: fabrication and characterization
Nanostructure
Nanotubes
Physics
Resistivity
Silver
Title Carbon nanotubes and silver flakes filled epoxy resin for new hybrid conductive adhesives
URI https://dx.doi.org/10.1016/j.microrel.2011.03.020
https://search.proquest.com/docview/1671259232
https://hal.science/hal-03541140
Volume 51
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