By Adrian M.T. Silva and Sonia A.C. Carabineiro
Carbon atoms have the superb skill to bond in awesome diversified manners which can suppose certain outstanding dimensional preparations from which completely diversified and fascinating nanostructured carbon fabrics are received. This publication goals to hide the newest advances in (i) Graphene and derivatives, together with graphene-based magnetic composites, membranes, wafer units, and nanofibers for a number of functions, in addition to a few specific houses, comparable to gentle emission from graphene; (ii) Carbon nanotubes warmers and fibers for reinforcement of cement and diamond-based skinny motion pictures; and (iii) Nanofluids along with either graphene and carbon nanotubes, except reporting a few very important case reports facing carbon nanostructures and their use in sensors, coatings, or electromagnetic wave absorbers.
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Additional info for Advances in Carbon Nanostructures
An excellent rate capability as well as much enhanced cycling stability. Table 1. Main applications of Fe3O4/G composites. 5. Ferrite-graphene and related composites Simple or complex graphene or GO composites are known for a few ferrites, mainly those of cobalt and nickel, and usually used for environmental purposes or in batteries. NiFe2O4/G nanocomposites were prepared by mixing graphene and NiFe2O4 nanoparticles (obtained via a polyacrylamide gel method) into ethanol and further thermal drying at 60°C .
Crystals, 2013, 3, 79–111. I. Inorganic nanostructures decorated graphene. In: Advanced Topics on Crystal Growth (Ed. Sukarno Olavo Ferreira), Intech, Rijeka, Croatia, 2013. ; Batzill, M. Graphene–nickel interfaces: a review. Nanoscale, 2014, 6, 2548– 2562. H. A comprehensive review of graphene nanocomposites: research status and trends, J. , 2013, 763953, 14 pp. ; Caporali, A. Preparation of magnetic carbon nanotubes (Mag-CNTs) for biomedical and biotechnological applications. Int. J. Mol. , 2013, 14, 24619–24642.
Considered the large energy consumption and high cost, it is not economical and practical to use carbon diamonds for large-scale industrial applications . 5772/64396 Therefore, the development of more applicable and economically suited carbon-based nanomaterials for fabricating separation membranes is an urgent need. The two-dimensional carbon, graphene, possessing a single-atom-thick sheet of sp2-hybridized carbon atoms arrayed in a honeycomb pattern, opened a new door for researchers and scholars to fabricate the next generation of membranes with outstanding separation capacities [20, 21].