Conducting polymer nanomaterials synthesis

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. 

Tremendous research works have been performed on the synthesis of conducting polymer nanomaterials using dispersion polymerization method [181-188]. There are two categories of dispersion polymerization in order to fabricate the conducting polymer colloids. The first approach forms polymer stabilizer coated conducting polymer nanoparticles. In this case, the monomer and oxidant are dissolved in a stabilized liquid mediiun and the formation of insoluble conducting polymer nanoparticles occurs as the polymerization proceeds. 

Green technologies and practices can be pursued in the field of agricultm-e, pharmaceuticals, materials and alternate energy resources. Some areas like conducting polymers, nanomaterial as catalysts, alternate solvents in synthesis, photovoltaic cells, biofuels, etc. 

Nanomaterials energy and applications As nanocrystals and nanotubes are better understood, it becomes possible to rationally design nano-structured materials for specific purposes. This area includes both chemical synthesis and physical properties of nanostructured materials incorporating fullerenes, organic conductive polymers, and inorganic nanostructures. A central goal is composite materials for solar energy utilization—new types of solar cells. 

Long Y-Z, Li M-M, Gub C, Wan M, DuvaU J-L, Line Z, Fan Z (2011) Recent advances in synthesis, physical properties and applications of conducting polymer nanotubes and nanofibers. Progr Polymer Sci 36 1415-1442 Lu X, Wang C, Wei Y (2009) One-dimensional composite nanomaterials synthesis by electrospinning and their applications. Small 5(21) 2349-2370... 

For example, Wuelfing et al. reported on the synthesis of Au NPs using the thiolated polymer, a-methoxy-co-mercapto-poly(ethylene glycol) (PEG-SH), as stabilizer in a modification of the Brust-Schiffrin method using a 1/12 polymer thiol/ AuC14 ratio. Transmission electron microscopy showed that the product had modestly polydisperse Au cores of average diameter 2.8 1 nm. This nanomaterial led to characteristics uniquely different from alkanethiolate MPCs, notably aqueous solubility, thermal and chemical stability, ligand footprint size, and ionic conductivity [66]. 

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