ICHMS '2009
TOPIC 2.1 PREPARATION AND PRODUCTION OF FULLERENES AND OTHER CARBON NANOSTRUCTURES
  • Production and investigation of fullerite C60 intercalated with small molecules. Shulga Y.M.
  • The admixture engineering: what kind of atoms will have encage of fullerenes. Grishchishyna L.N., Grishchishyn D.A.
  • New route of thermal transformation of hydrocarbons and novel structures and compounds of carbon. Kharlamov A.I., Kirillova N.V, Fomenko V.V., Gubareni N.I., Skripnichenko A.V.
  • Self-assemblage and self-organizing of nonequilibrium carbon nanogels. Zhukovsky M.S., Beznosyuk S.А., Lerh Ya.V., Zhukovskaya T.М.
  • Structural transformation of metallic catalyst nanoparticles of in different processes of carbon nanotubes formation. Korneeva Yu.V., Novakova А.А.
  • Synthesis and reactivity of higher fullerenes. Kareev I.E., Bubnov V.P., Kotov A.I., Yagubskii E.B., Boltalina O.V., Strauss S.H.
  • Plasma chemical synthesis of nanopowders of the metallocarbon systems. Tsvetkov Y.V., Samokhin A.V.
  • Obtaining of nanoporous carbon by pyrolysis of aluminiumchlorhydrocarbon compounds. Ibragimov H. D., Rustamov M. I., Seidov N. M., Kuliev A. D., Ibragimova Z. M., Kolchikova I. V.
  • Core-shell SiC based hybrid nanomaterials: synthesis and EPR investigations. Savchenko D.V., Ogurtsov N.A., Makoswka-Janusik M., Kodjikian S., Pud A.A., Kassiba А.
  • Exo-hydrogenated small radius zigzag SWCNTs. Baizaee S.M., Khoshnevisan B.
  • The ways of stabilization of C74 biradical fullerene molecule. Khamatgalimov A.R., Kovalenko V.I.
  • Influence of plasma parameters on formation rate of fullerenes, nanotubes and nanoparticles. Osipova I.V., Churilov G.N., Novikov P.V.
  • Metal-carbon fibres with highly dispersive Fe, Co, Ni are the perspective material for synthesis of carbon nanostructures. Safonova А.М., Smetanina O.V., Shpilevskaja L.E., Gonov A.N.
  • Obtain of spectrophotometric study of organic solutions of endo- and exometallofullerenes of C60. Borts B.V., Tkachenko V.I., Moskvitin A.V., Kazarinov Yu.G.
  • Bis-azahomofullerenes: regioselective synthesis and mechanism of reactions. Zverev V.V., Kovalenko V.I., Romanova I.P., Sinyashin O.G.
  • The adamantane and carborane analogs of fullerene nanoclusters. Bej M.P., Dikusar E.A., Potkin V.I., Yuvchenko A.P., Zelenkovskii V.M.
  • Formation of higly-dispersed carbon in the process of hydrocracking of heavy petroleum fractions. Rustamov M.I., Abad-zade Kh.I., Guliyev A.D., Mukhtarova G.S.
  • I. About processes of carbon nanostructures formation on cathode under electric arc discharge conditions. Zolotarenko А.D, Zolotarenko Аl.D., Zolotarenko Аn.D., Lysenko E.А., Golovchenko Т.N., Vlasenko А.Yu., Schur D.V., Pomytkin А.P.
  • II. About the processes of carbon nanostructures formation in the gaseous phase and on the reactor walls under electric arc discharge condition. Zolotarenko A.D., Zolotarenko An.D., Zolotarenko Al.D., Pomytkin A.P., Schur D.V., Zaginaichenko S.Yu., Skorokhod V.V.
  • III. On the processes of carbon nanostructures formation in liquid phase. Zolotarenko An.D., Zolotarenko Al.D., Schur D.V., Zaginaichenko S.Yu., Dubovoy A.G.
  • Synthesis of carbon nanotubes on the surface of carbon fibers. Bogolepov V.A., Schur D.V., Adeev V.M., Golovchenko T.N., Voronaya T.V., Kotko A.V., Lysenko E.A.