TOPIC 2.2 PHYSICAL AND CHEMICAL PROPERTIES OF CARBON NANOMATERIALS
  • Ossipyan Yu.A. Carbon nanomaterials under high pressure.
  • Volkov I.A., Kushmar I.A. To a problem of stability of atomic and molecular systems (fullerenes, hydrocarbons, chemical elements, magic nuclei).
  • Maystrenko Ì.I., Anikina N.S., Zolotarenko À.D., Lysenko Å.À., Sivak G.A., Schur D.V. Evaluation of extinction coefficients of C60 and C70 solutions using PC.
  • Garbuz V.V., Kornilova V.I., Kuzmenko L.N., Muratov V.B. Conception of the precipitation for carbon nanostructured material (CNM) regularities by CO decomposition.
  • Gordeev S.K., Ibragimova R.I., Korchagina S.B., Vorobjev-Desjatovsky N.V. Sorption activity of nanodiamond composites toward gold(I) cyanide complexes.
  • Likhtorovich S. P., Nishchenko M. M., Prikhod'ko G. P., Sementsov Yu. I., Polshin E. V., Koda V. Yu., Fomenko I. Ye. Positron annihilation in nanostructured thermally exfoliated graphite.
  • Nishchenko M.M., Shevchenko M.Ya., Patoka V.I., Fomenko I.Ye, Schur D.V., Dubovoy A.G. Mass-spectrometry of carbon nanotubes prepared by acytelene pyrolisis.
  • Plotnikov V.D., Avdonin V.V., Shakhrai D.V., Postnov V.I. Possible intermolecular charge transfer mechanism in shock compressed fullerite C60.
  • Anikina N.S., Zaginaichenko S.Yu., Zolotarenko À.D., Maystrenko Ì.I., Sivak G.A. Schur D.V. Quantitative analysis of C60 and C70 fullerene solutions by spectrophotometric method.
  • Osip'yan Yu.A., Fortov V.E., Kagan K.L., Kveder V.V., Kulakov V., Shakhrai D.V., Nikolaev R.K., Postnov V.I., Sidorov N.S. Conductivity of C60 fullerene crystals under dynamic compression.
  • Khotynenko N.G., Savenko À.F., Bogolepov V.À., Anikina N.S., Dubovoy À.G., Schur D.V. IR transmission spectra of nanostructural materials.
  • Manika I., Maniks J., Kalnacs J. Photo-induced modifications of the structure and microhardness of fullerite C60.
  • Goldt I.V., Denisenko N.I., Streletski A.V., Boltalina Î.V., Buyanovskaya A.G., Sidorov L.N. Synthesis and physical chemical properties of fluorofullerene Ñ60F18.
  • Dovbeshko G.I., Brychka S.Ya., Brychka A.V., Repnytska O.P., Sementsov Yu.I., Obrastsova E.D. Vibrational spectra of carbon-like materials: SEIRA versus RS spectroscopy.
  • Golovko E.I., Dubovoy À.G., Zelenskaya Î.G., Meleshevich Ê.À., Koval' À.Yu., Zaginaichenko S.Yu., Schur D.V. Derivatographic investigations into thermal decomposition of dispersed particles of metal-carbon composites.
  • Markin A.V., Lebedev B.V., Smirnova N.N. Thermodynamics of carbon nanostructures: fullerene Ñ60, polymeric phases of Ñ60, hydrofullerene Ñ60Í36.
  • Popov A.A., Senyavin V.M., Granovsky A.A., Lobach A.S. Vibrational spectra and molecular structure of the hydrofullerenes C60H18, C60D18 and C60H36 as studied by IR and Raman spectroscopy and first-principle calculations.
  • Rogozinskaja A.A., Klochkov L.A., Shaposhnikova T.I., Timofeeva I.I., Simanovskij A.P., Rogozinskij A.A., Schur D.V., Lukashenko N.V. X-Ray investigation of deposits formed by electric arc sputtering composites Me1-Me2-C.
  • Yanilkin V.V., Nastapova N.V., Toropchina A.V., Morozov V.I., Gubskaya V.P.,Berezhnaya L.Sh., Sibgatullina F.G., Nuretdinov I.A. Adiabatic electron affinity of solvated methanofullerenes and transformation of its anion states.
  • Utkin A.V., Yakushev V.V., V.V. Milyavskiy, A.Z. Zhuk and V.E. Fortov. Shock compression of fullerite C60.
  • Êiseleva T.Yu., Novakova À.À., Il'ina Yu.V. , Òarasov B.P., Muradyan V.E. Ìossbauer study of carbon nanostructures obtained on Fe-Ni catalyst.
  • Belousov V.P., Smirnova N.N., Markin A.V. Thermodynamic properties of fullerene nanostructures in the range from T 0 to 670 K at standard pressure.
  • Makarets N.V., Moskalenko V.V. Simulation of fullerene irradiation and fragmentation by particle beams.
  • Usatov A.V., Martynova E.V., Lebedev V.N., Dolgushin F.M., Novikov Yu.N. Organometallic complexes of fullerene with carborane and monocarbollid ligands.
  • Miroshnikov V.V., Shvets S.N. Analysis of defects progress in hydrogen-containing constructions.
  • Shanina B.D., Konchits A.A., Kolesnik S.P., Veynger A.I., Danishevskii A.M., Popov V.V., Gordeev S.K., Shuman V.B., Kurdyukov D.A. Electrical and magnetic properties of current carriers in nano-porous carbon prepared from carbide ZC (Z= Si, Ti, B4)
  • Yusupova G.G., Romanova I.P., Sinyachin O.G. Single isomers of the bis-adducts of [60]fullerene and isocyanurato- and nitropyromidine substituted azides.
  • Goryachev Yu.M., Dehtyaruk V.I., Siman M.I., Fiyalka L.I., Shvartsman Ye.Y. Electronic structure and thermodynamics of fullerenes and nanostructures.
  • Nazarova O.V., Pavlov G.M., Bokov S.N., Michailova N.A., Zaitseva I.I., Korneeva E.V., Panarin E.F. Hydrodynamic and molecular characteristics of water-soluble starlike fullerene derivatives based on polyvinylpyrrolidone.
  • Davydov V.A., Kashevarova L.S., Rakhmanina A.V., Dzyabchenko A.V., Senyavin V.M., Agafonov V. New carbon materials on the basis of C60 polyfullerenes: synthesis, identification, and properties investigation.
  • Dmytrenko Î.P., Kulish M.P., Bilyi M.Ì., Gubanov V.O., Makarets M.V., Prylutskyy Yu.I., Eklund P., Shlapatskaya V.V., Ulanski J., R. Wojcichowski. Irradiation effect on the Raman spectra of single-walled carbon nanotubes.
  • Dmytrenko Î.P., Kulish M.P., Bilyi M.Ì., Hietschold M., Schulze S., Matveeva L.A., Shpilevskiy E.M., Prylutskyy Yu.I., Ulanski J., Wojciechowski R., Kozanecki M. Vibrational spectra of Cu-Ñ60 films.
  • Dmytrenko Î.P., Kulish M.P., Hietschold M., Muller F., Poperenko L.V., Yurgelevich I.V., Prylutskyy Yu.I., Scharff P., Braun T. Electronic and crystal structure of Ñ60 films.
  • Zakharov A.I, Milovanova O. X-ray diffractomoter for investigation hydrogen sorption at pressures up to 10 MPA.
  • Lashneva V.V., Dubok V.A., Tkachenko Ju.G., Matveeva L.A., Rusakovsky A.B., Juhimchuk V.A., Klimenko A.P. Physico-chemical properties of fulllerene Ñ60 based coatings.
  • Popov A.A., Mel'khanova S.V. Thermochemical properties of the hydrofullerenes as measured experimentally and calculated at DFT level.
  • Bykova T.A., Smirnova N.N., Lebedev B.V. Calorimetric study of carbynoid structures in the range from Ò 0 to 450 Ê.
  • Hathiramani D., Brauning H., Trassl R., Scheier P., Presnyakov L.P., Narits A.A., Salzborn E. On the Interaction of Fullerene Ions with Electrons and Ions
  • Belenkov Å.À. Classification of carbon structures.
  • Isayev S.D., Grebenyuk A.G., Kornilov M.Yu. Frontier effects of aromatic carbon surfaces.
  • Danishevskii A.M., Shuman V.B., Shchukarev A.V., Popov V.V., Veinger A.I., Shanina B.D., Yagovkina M.A., Gordeev S.K. Sulphur and selenium in nanoporous carbon.
  • Senyavin V.M., Popov A.A., Granovsky A.A. Vibrational spectra of C60 polymers: experiment and first-principle assignment.
  • Baran L.V., Shpilevsky E.Ì., Okatova G.P. Structure and phase transformation in implanted titanium-fullerene films.
  • Lukyanova V.A., Papina T.S., Kolesov V.P. Ñ-F bond enthalpy in fluorinated graphite and some fluorides of fullerene Ñ60.
  • Glazkov V.P., Somenkov V.A. Neutron study of the fulleren compounds with light atoms and molecules.
  • Voinkova I.V., Pesin L.A., Brzhezinskaya M.M., Gribov I.V. Moskvina N.A., Kuznetsov V.L. The influence of ion irradiation on the shape of core-level photoelectron spectra of carbon nanotubes.
  • Spitsina N.G., Lobach A.A., Kondratieva I.V., Bashkin I.O. Pressure effect on molecular complexes TMTSF·C60·2(CS2) è ET2·C60.
  • Popov A.P., Bazjin I.V. Three-dimensional polymerized cubic phase of fullerenes C28.