Carbon Nanotubes as Highly Conductive Nano-Fillers in Metallic Matrices

Abstract: . A baseline electroless deposition processes for Cu on CNTs has been developed. This process results in the formation of copper particles of few tens of nanometres. Using this process in a CNT loaded solution it is possible to obtain a homogeneous distribution of CNTs and Cu, even for volume fraction of CNTs as high as 17 v%. By the application of wet chemical processing it is possible to penetrate the natural felt-like structure of the CNTs and to fill the gaps with copper particles. Variations of the baseli… Show more

“…Others follow the idea of coating the filler particles by thin intermediate layers, simultaneously enhancing the wetting behaviour and addressing the interface thermal conductance [9]. Both are a necessity for tailoring the interface between the matrix and the fillers, decreasing the interfacial thermal resistance or generally improving the wetting behaviour for infiltration methods.…”

Thermo-physical properties and TEM analysis of silver based MMCs utilizing metallized multiwall-carbon nanotubes

“…Others follow the idea of coating the filler particles by thin intermediate layers, simultaneously enhancing the wetting behaviour and addressing the interface thermal conductance [9]. Both are a necessity for tailoring the interface between the matrix and the fillers, decreasing the interfacial thermal resistance or generally improving the wetting behaviour for infiltration methods.…”

Thermo-physical properties and TEM analysis of silver based MMCs utilizing metallized multiwall-carbon nanotubes

The wetting behaviour of silver on carbon, pure and carburized nickel, cobalt and molybdenum substrates

Fabrication of MWCNT incorporated Sn–Bi composite