The course covers the following topic:
1 Carbon and carbonaceous materials: basic properties and forms. 2 The structure of graphite polytypes and structural failure. 3 Intercalated supramolecular structure based on graphite. 4 The structure of diamond: Polytypes, disorders, diamond nanocrystals. Synthesis of diamond recovery. 5 Evaluation of structural ordering: Definitions of types, the crystallite sizes Lc and La. 6 Fullerenes: fullerides, fullerites, their formation and nanostructure: Fulleren crystals and soot. 7 Carbon fiber: production and structure of the fibers (PAN, pitch) nanofibers. 8 Nanotubular Carbon: Forms, synthesis and structure of the MWNT / SWNT, preparation techniques. Intecalation, performance, nano-objects of the nanotubes. 9 Pyrolytic carbon, active carbon, soot. 10 Composites: Polymeric metal and carbon composites and carbon-carbon composites. Thermosets and thermoplastics for the matrix.
1 Carbon and carbonaceous materials: basic properties and forms. 2 The structure of graphite polytypes and structural failure. 3 Intercalated supramolecular structure based on graphite. 4 The structure of diamond: Polytypes, disorders, diamond nanocrystals. Synthesis of diamond recovery. 5 Evaluation of structural ordering: Definitions of types, the crystallite sizes Lc and La. 6 Fullerenes: fullerides, fullerites, their formation and nanostructure: Fulleren crystals and soot. 7 Carbon fiber: production and structure of the fibers (PAN, pitch) nanofibers. 8 Nanotubular Carbon: Forms, synthesis and structure of the MWNT / SWNT, preparation techniques. Intecalation, performance, nano-objects of the nanotubes. 9 Pyrolytic carbon, active carbon, soot. 10 Composites: Polymeric metal and carbon composites and carbon-carbon composites. Thermosets and thermoplastics for the matrix.