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Conducting polymers template-free

Cruz-Silva R, Romero-Garcia J, Angulo-Sanchez J, Ledezma-Perez J, Arias-Martfn E, Moggio I, Flores-Loyola E (2005) Template-free enzymatic synthesis of electrically conducting polyanihne using soybean peroxidase. Eur Polym J 41(5) 1129-1135... [Pg.18]

M.X. Wan, A template-free method towards conducting polymer nanostmetures, Adv. Mater., 20(15), 2926-2932 (2008). [Pg.496]

Template-Free Methods for Conducting Polymer Nono-Architecture 21... [Pg.21]

The same galvanostatic template free, site-specific electrochemical method was developed to precisely fabricate individual and addressable conducting polymer nanowires on electrode junctions in a parallel-oriented array [123]. [Pg.22]

Wan, M.X., et al. 2001. Template-free synthesized microtubules of conducting polymers. Synth Met 119 71. [Pg.690]

Next section covers extensive discussions of various fabrication methods for conducting polymer nanomaterials in detail. This section is divided by the soft template method, hard template method, and template-free method. [Pg.194]

In general, template method is classified by soft and hard templates. Whereas anodic aluminum oxide (AAO) membrane, track-etched polycarbonate (PC) and zeolite can be used as hard templates, soft templates include surfactant, cyclodextrin, liquid crystal, etc. Compared with soft and hard templates, template-free method represents the fabrication technique of conducting polymer nanomaterials without the template, which is discussed in this section [115]. [Pg.199]

Template-free techniques have been extensively studied for the fabrication of conducting polymer nanomaterials fabrication. Compared with hard and soft template methods, these methodologies provide a facile and practical route to produce pure, uniform, and high quality nanofibers. Template-free methods encompass various methods such as electrochemical synthesis, chemical polymerization, aqueous/organic interfacial polymerization, radi-olytic synthesis, and dispersion polymerization. [Pg.205]

In addition to spherical particle nanocomposites, the preparation of nanotubes and nanowires composites with both magnetic and electrical properties is of great interest due to the enhancement of the conductivity. In general, the room temperature conductivity increases when the diameter decreases [79]. Conducting polymer nanotubes can be chemically or electrochemically synthesized by hard and soft template or template-free method in the presence of magnetic nanoparticles [8, 23, 27]. [Pg.56]

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See also in sourсe #XX -- [ Pg.164 ]



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