The VI International Conference on Times of Polymers (TOP) and Composites was held on June 2012 (Ischia-Italy). This was the fourth of a series of biennial workshops on polymers timescales resulting from a joint initiative of the Second University of Naples-SUN and the University of Naples Federico II. Scientists from chemistry to physics to engineering areas formed a homogeneous community as the contributions, even if spanning on very different topics, subtend the concept of timescale of polymer based materials.
The VI International Conference on Times of Polymers (TOP) and Composites was held on June 2012 (Ischia-Italy). This was the fourth of a series of biennial workshops on polymers timescales resulting from a joint initiative of the Second University of Naples-SUN and the University of Naples Federico II. Scientists from chemistry to physics to engineering areas formed a homogeneous community as the contributions, even if spanning on very different topics, subtend the concept of timescale of polymer based materials.
From the Contents: Percolation effects on entangled polymer rheology and the glass transition.- Cooperative facilitation approach to glassy dynamics.- Logarithmic-like relaxation of hydrated peptides.- Relaxation times of nano-colloid flocculation induced by adsorbing and non-adsorbing polymers.- Electroactive functional hybrid layered nanocomposites.- Biodegradation of high molecular weight polylactic acid.- Biodegradable composites filled with halloysite nanonotubes: Calorimetric investigations and structural issues.- PCL loaded with sol-gel synthesized organic-inorganic hybrid fillers: From the analysis of 2D substrates to the design of 3D rapid prototyped composite scaffolds for tissue engineering.
From the Contents: Percolation effects on entangled polymer rheology and the glass transition.- Cooperative facilitation approach to glassy dynamics.- Logarithmic-like relaxation of hydrated peptides.- Relaxation times of nano-colloid flocculation induced by adsorbing and non-adsorbing polymers.- Electroactive functional hybrid layered nanocomposites.- Biodegradation of high molecular weight polylactic acid.- Biodegradable composites filled with halloysite nanonotubes: Calorimetric investigations and structural issues.- PCL loaded with sol-gel synthesized organic-inorganic hybrid fillers: From the analysis of 2D substrates to the design of 3D rapid prototyped composite scaffolds for tissue engineering.
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