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Conductive nanofibers

This review covers the active research area of processing functional conductive nanofibers and nanostructures with various compositions and properties by means of the electrospinning method. It is also focuses on the unique properties of electrospun conductive nanostructures that can be utilized to improve existing applications of conductive materials and on the various possibilities to meet the requirements of a number of novel applications. [Pg.201]

F. Granato, A. Bianco, C. Bertarelli, and G. Zerbi, Composite polyamide 6/polypyrrole conductive nanofibers, Macromolec. Rapid Commun., 30, 453 58 (2009). [Pg.203]

Y. Srivastava, M. Marquez, and T. Thorsen, Multijet electrospinning of conducting nanofibers from microfluidic manifolds, J. Appl. Polymer ScL, 106, 3171-3178 (2007). [Pg.203]

F. Granato, M. Scampicchio, A. Bianco, S. Mannino, C. Bertarelli, andG. Zerbi, Disposable electrospun electrodes based on conducting nanofibers, Electroanal., 20, 1374—1377... [Pg.595]

PPy-PLGA electrospun meshes were used to support the growth and differentiation of rat pheochromocytoma 12 (PC12) cells and hippocampal neurons compared to noncoated PLGA meshes. It was suggested that PPy-PLGA may be suitable as conductive nanofibers for neuronal tissue scaffolds. [Pg.91]

Conducting nanofibers by blending multiwalled carbon nanotubes (MWCNTs) and PANl/PEO were produced using electrospinning. [Pg.218]

Polyamide 6 (PA-6)/polypyrrole-conductive nanofibers, prepared by the pol5merization of pyrrole on the fiber surface, were studied. A solution of PA-6 added with ferric chloride in formic acid was elec-trospun and the fibers were exposed to pyrrole vapours. Potyp3UTole was formed on the fiber surface. Polypyrrole-polyethyleneoxide... [Pg.227]

Granato E, Bianco A, Bertarelli C., and Zerbi G., Composite polyamide 6/poiypyrrole conductive nanofibers, MacromoL Rapid Commun., 2009,30,453-458. [Pg.271]

Chuangchote et aL (2008) fabricated ultrafine poly[2-methoxy-5-(20-ethylhexyloxy)-l,4-phenylenevinylene]/poly(vinyl pynolidone) (PVP) composite fibers for conductive nanofibers by electrospinning blended solutions in a mixed solvent of chlorobenzene and methanol. The average diameter of the eiectrospun fibers was found to decrease with the reduction of the PVP concentration and/or the addition of the volatile organic salt, pyridium formate. [Pg.223]

Aussawasathien, D. (2006). Electrospun Conducting Nanofiber-Based Materials and their Characterization Effects of Fibers Characterisctics on Properities and Applications, in the Graduate Faculty of the University of Akron. The University of Akronohio. [Pg.250]

Figure 13.9 Procedure for the fabrication of composite conducting nanofibers... Figure 13.9 Procedure for the fabrication of composite conducting nanofibers...
Figure 13.10 Electrochemical cell setup (a) copper wire, (b) silver epoxy, (c) glass slide, and (d) conducting nanofiber mat RE reference electrode, AE auxiliary electrode, WE working electrode... Figure 13.10 Electrochemical cell setup (a) copper wire, (b) silver epoxy, (c) glass slide, and (d) conducting nanofiber mat RE reference electrode, AE auxiliary electrode, WE working electrode...
Granato, F, Scampicchio, M., Bianco, A., Mannino, S., Bertarelli, C., and Zerbi, G. (2008) Disposable electrospun electrodes based on conducting nanofibers. Electroanalysis, 20, 1374-1377. [Pg.377]


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Conductive nanofibers organization

Conductivity of CP Nanowires, Nanofibers, and Nanotubes

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Preparation of Conductive Nanofibers

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