Andere Kunden interessierten sich auch für
![Synthesis of Nano-Conductive Polymer (PAni.CSA/PEO)]( "Synthesis of Nano-Conductive Polymer (PAni.CSA/PEO)")
Synthesis of Nano-Conductive Polymer (PAni.CSA/PEO)42,99 €![Advanced Study on the Soluble Nano-Carbon Using Electrical Discharge]( "Advanced Study on the Soluble Nano-Carbon Using Electrical Discharge")
Advanced Study on the Soluble Nano-Carbon Using Electrical Discharge46,99 €![Optoelectronic and structural properties of a-As/c-Si junction]( "Optoelectronic and structural properties of a-As/c-Si junction")
Optoelectronic and structural properties of a-As/c-Si junction32,99 €![DC Electrical Properties of Mg Substituted NiCuZn ferrites]( "DC Electrical Properties of Mg Substituted NiCuZn ferrites")
DC Electrical Properties of Mg Substituted NiCuZn ferrites32,99 €![Optical and Electrical Properties of Silver Nanoparticles]( "Optical and Electrical Properties of Silver Nanoparticles")
Optical and Electrical Properties of Silver Nanoparticles32,99 €![Energy, Mechanical and Electrical Properties of Al-Glass Composites]( "Energy, Mechanical and Electrical Properties of Al-Glass Composites")
Energy, Mechanical and Electrical Properties of Al-Glass Composites26,99 €![Electrical Properties and Dynamic Stability of Metal-Ceramic Composite]( "Electrical Properties and Dynamic Stability of Metal-Ceramic Composite")
Electrical Properties and Dynamic Stability of Metal-Ceramic Composite26,99 €
Electrospinning is a simple non-mechanical method of preparation of polymeric fibers in the range of 10nm to 10 mim by accelerating a charged polymer jet in a very high electric field. The fibers obtained by this process are randomly oriented in the form of non woven fabric. Details of design and fabrication of electrospinning setup to get continuous and well aligned fibers over large area are discussed. The present work concerns with the results of investigations of electrical properties of electrospun fibers of polymer-carbon nanotube nanocomposites. Nanocomposites of two different matrices and two types of CNT (SWCNT and MWCNT) as filler were taken up for detailed study. The enhancement of electrical conductivity with loading of CNTs was investigated from the single fiber electrical conductivity measurement. The charge transport mechanism was studied from temperature dependent electrical conductivity measurement.