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Carbon-based nanomaterials such as carbon nanotubes, graphene and its derivatives, nanodiamond, fullerenes, and other nano-sized carbon allotropes have recently attracted a lot of attention among the scientific community due to their enormous potential for a wide number of applications arising from their large specific surface area, high electrical and thermal conductivity, and good mechanical properties. The combination of carbon nanomaterials with polymers leads to new nanocomposites with improved structural and functional properties due to synergistic effects. In particular, the properties of carbon-based polymer nanocomposites can be easily tuned by carefully controlling the carbon nanomaterial synthesis route and additionally the versatile synergistic interactions amongst the nanomaterials and polymers. This book provides selected examples of the most recent advances regarding carbon nanomaterial-reinforced polymeric composites. It includes the most representative types of polymeric matrices and covers aspects of new processing techniques, novel surface modifications of carbon nanomaterials and their applications in diverse fields, in particular in electronics and energy storage.

multi walled carbon nanotubes --- polyacrylonitrile --- nascent fiber --- thermal properties --- morphological structure --- nanocomposites --- graphene --- melt processing --- mechanical properties --- electrical conductivity --- electrostatic spraying --- multi-walled carbon nanotubes --- waterborne polyurethane coating --- dispersity --- surface hardness --- wear rate --- friction coefficient --- in-mold decoration injection molding --- microcellular injection molding --- surface quality --- warpage --- multiwalled carbon nanotube --- hyaluronic acid --- microfibers --- wet-spinning --- microstructures --- tensile properties --- Ag --- CNT --- flexible supercapacitor electrode --- polymer conductive film --- cellulose acetate membrane --- PANI --- graphene oxide --- hexamethylene diisocyanate --- nanocomposite --- thermal stability --- polydiphenylamine-2-carboxylic acid --- single-walled carbon nanotubes --- conjugated polymers --- in situ oxidative polymerization --- hybrid nanocomposites --- polypropylene --- carbon nanotube --- titanium dioxide --- reduced graphene oxide --- polyurethane foam --- flexible electronics --- pressure sensing --- polyethyleneimine --- thermoelectric properties --- carrier type --- Paal-Knorr reaction --- polyketone --- carbon nanotubes --- Diels-Alder --- click-chemistry --- hydrogen bonding --- self-healing --- re-workability --- recycling --- Joule heating --- flexible electrode --- cross-linked acrylamide/alginate --- tensile strength --- impedance spectroscopy --- polymer electrolyte --- Li-ion micro-batteries --- flexible anode --- pre-lithiation --- carbon-based polymer nanocomposite --- energy storage --- fuel cell --- electrochemical devices --- n/a

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This collection of research and review papers is aimed at depicting the state of the art on the possible correlations between processing variables, obtained structure and special properties which this structure induces on the plastic part. The extraordinary capacity of plastics to modify their properties according to a particular structure is evidenced for several transformation processes and for many applications. The final common goal is to take profit of this peculiar capacity of plastics by inducing, through a suitable processing, a specific spatial organization.

polymer blend --- carbon nanotube --- polycaprolactone --- X-ray diffraction --- reactive blending --- copper clad laminate --- incremental forming --- uniaxial compression --- fatigue --- nanoparticles --- composite --- deformation --- polymer composite --- humidity --- model --- uniaxial tensile deformation --- injection molding --- SPIF --- bioresorbable polymers --- flow --- poly(ethylene terephthalate) --- morphology --- 3D printing/additive manufacturing --- supercritical CO2 --- polymer morphology --- tissue engineering and regenerative medicine --- microfibrillar composites --- polyamide 6 --- ultra-high molecular weight polyethylene --- chain orientation --- processing --- intrinsic viscosity --- conductive polymer composites --- microcellular injection molding --- ionic liquids --- poly(?-caprolactone) --- biaxial elongation --- biobased films --- crystalline morphology --- gel --- composites --- PLLA --- bioresorbable vascular scaffolds --- temperature --- layered double hydroxides --- epoxy microstructure --- nanoreinforcement --- shear --- collagen --- controllable gas permeability --- contact angle --- WAXS --- mechanical performance --- biodegradable nanofibers --- in situ X-ray --- foam --- polyolefin --- carbon black --- polymorphism --- degradation --- polypropylene --- XRD --- graphite --- polyimide film --- indentation --- ultra-high molecular weight polyethylene (UHMWPE) --- mold temperature evolution --- fused filament fabrication/fused deposition modelling --- polyvinyl butyral --- supercritical fluid --- conductive filler --- octakis[(3-glycidoxypropyl)dimethylsiloxy]octasilsesquioxane (GPOSS) --- supercritical N2 --- compression molding --- flame retardant --- epinephrine --- crystallinity --- ethylene vinyl acetate --- atomic force microscopy --- temperature sensitive --- mechanical properties --- crystallisation --- microencapsulation --- linear coefficient of thermal expansion (CTE) --- structure and properties --- PLA --- isotactic polypropylene --- lidocaine --- graphene --- structural analysis --- critical gel --- Harmonix AFM --- physicochemical characterization --- polyurethane --- cavitation --- curing rate --- orientation --- breathable film --- stress-induced phase transitions --- phase transitions --- SAXS --- hydrophobicity --- melamine polyphosphate --- PLGA --- compatibilizer --- polyoxymethylene (POM) --- homogeneous dispersion --- stretch blow molding --- electrical conductivity --- poly(lactic acid)