NAPOLYNET FP7 Setting up research ­intensive clusters across the EU on characterization of polymer nanostructure (Progetti)

Type
Label
  • NAPOLYNET FP7 Setting up research ­intensive clusters across the EU on characterization of polymer nanostructure (Progetti) (literal)
Anno
  • 2010-01-01T00:00:00+01:00 (literal)
Alternative label
  • C.Silvestre (2010)
    NAPOLYNET FP7 Setting up research ­intensive clusters across the EU on characterization of polymer nanostructure
    (literal)
Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#autori
  • C.Silvestre (literal)
Titolo
  • NAPOLYNET FP7 Setting up research ­intensive clusters across the EU on characterization of polymer nanostructure (literal)
Descrizione sintetica
  • Beside traditional polymer based materials, polymer nanostructures have the potential for enhanced product characteristics, such as improved thermal stability and fire retardancy, biocompatibility, surface modification, increased mechanical strength and improved barrier properties for many industrial sectors (mainly packaging, filtration and separation membranes and textiles) where improved performance together with reduced cost and weight are essential. Therefore polymer nanotechnology provides exciting and huge opportunities, impacting across all sectors of the global polymer markets (entire industry supply-chain) and fits to all size companies especially the small and medium firms. At the length of scale of nanomaterials of not more than 100 nm in at least dimension \"the rules of the game\" change. As a consequence difficulties are not related only to handle materials at the nanometre level, but first of all to characterize and understand nanotechnology physics and chemistry properties. The challenge is then to understand how polymer nanostructure impacts the properties of materials and enables discrete control of the desired materials properties. In particular how: mechanical properties are dictated by particle size morphology and strength of interfaces (chemistry and roughness); thermal emissivity and conductivity are influenced by particle size and enhanced surface area/roughness and nano-scale voids; electrical conductivity and bandgap energy are influenced by (literal)
Prodotto di
Autore CNR

Incoming links:


Autore CNR di
Prodotto
data.CNR.it