Conductive Polymers
Welcome to the Conductive Polymers section. The latest articles for this section are displayed below:
Viewing 1 to 10 of 41 articles
Improving nanocomposite performance with graphene oxide and graphene nanosheets
A good dispersion of graphene nanoparticles and nanosheets in polyvinylidene fluoride, achieved by combining solution mixing and melt compounding, improves its mechanical and electrical properties.Conductive polymer/silver- coated textile composites with antibacterial properties
A composite made up of a conductive polymer, poly(!italic!o!/italic!-anisidine), and metallic silver particles imparts antibacterial activity and electrical conductivity when deposited on a nonwoven textile fabric.Enhancing the electrical conductivity of incompatible polymer blends
A novel two-step mixing process is investigated, in which carbon black fillers are added to a nitrile butadiene rubber/ethylene propylene diene monomer mixture in different sequences.
Multiwalled carbon nanotubes for microwave heating of polymers
Efficient heating is achieved by optimizing the dispersion of microwave susceptor additives within a polypropylene matrix.
Effect of viscosity and processing parameters on the electrical conductivity of blends
An investigation into polypropylene/polystyrene blends shows thermodynamic factors to be more influential than kinetic ones in selectively localizing carbon nanotubes.Simple method for fabrication of highly conductive natural rubber nanocomposites
In a novel approach, graphene oxide/natural rubber nanocomposites are immersed in hydroiodic acid for in situ reduction of graphene oxide to graphene.
High-strain-rate testing of reinforced polyetherether ketone
A variety of techniques are used to test and understand how fiber-filled thermoplastics behave when impacted or subjected to high rates of deformation.
Improving the electrical properties of polyamide nanocomposites
Preferential localization of multiwall carbon nanotubes at the polyamide interface gives rise to a high aspect ratio that can be maintained after processing, even at low filler contents.
Improved electrical properties of poly(vinyl alcohol)-based nanofiber electrolytes
Multifunctional, chemically and physically reactive polymer blends are used as electrical conductive sites to fabricate self-assembled nanofiber structures.
Reducing the filler content of electrically conductive composites
Polypyrrole-coated peach palm fibers can be used within a polyurethane matrix to achieve a good level of electrical conductivity and high electromagnetic interference shielding effectiveness.Viewing 1 to 10 of 41 articles