TOPIC 2.3 HYDROGEN STORAGE IN NANOSTRUCTURAL CARBON

Nanomaterials design for hybrid hydrogen storage in the metal − carbon systems. Shabalin I.L., Keens S.G., Mileeva Zh.A., Ross D.K., Paterson T.M.

Investigation of electrochemically hydrogenated carbon nanotubes. Khantimerov S.M., Suleimanov N.M., Kukovitskii E.F. , Gnezdilov O.I., Matukhin V.L., Sakhratov Y.A.

The prospects for an application of composite materials in the hydrogen storage and transport systems. Koroteev A.S., Koshlakov V. V., Mironov V. V.

Nanosystem accumulators of hydrogen: quantum polycondensates of hydrogen biradicals in carbon nanotubes. Maslova O.A., Vazhenin S.V., Zhukovsky M.S., Zhukovskaya T.M., Beznosyuk S.A.

From micro- to nano-size catalytic membrane hydrogenation reactors with accumulated hydrogen. Soldatov A.P., Tsodikov M.V., Teplyakov V.V., Parenago O.P.

Hydrogen and xenon adsorption on nanoporous materials from brown coal. Shendrik T.G., Kolobrodov V.G., Tamarkina Y.V., Kucherenko V.А.

Oxidative modification of carbon nanotubes and their sorption properties. Redkin A.N., Grazhulene S.S., Telegin G.F., Bazhenov A.V., Fursova T.N.

Reactions of hydrogen and oxygen with carbon nanotubes under plasma. Chekhovskiy A.A., Brichka S.Ya., Brichka A.A., Podsosonnyy V.I.

Temperature-time influence on oxidized multiwall carbon nanotubes studied by the FTIR and electron spectroscopy methods. Lesiak B., Biniak S., Trykowski G., Zemek J., Jiricek P., Stobinski L.

Determination of hydrogen – adsorption characteristics of fullerite C60. Savenko A.F., Zolotarenko A.D., Podtynnykh V.M., Teslenko L.O., Shvachko H.A., Zaginaichenko S.Yu., Schur D.V., Pomytkin A.P., Matysina Z.A.