ОБ ИНТЕРКАЛЯЦИИ H2 НАНОФАЗЫ В ГРАФЕНОВЫЕ СЛОИСТЫЕ СТРУКТУРЫ В СВЯЗИ СО СПИЛЛОВЕР ЭФФЕКТОМ
Аннотация
Рассматриваются экспериментальные данные, демонстрирующие проявление спилловер эффекта при интеркаляции твердого водорода в графитовые нановолокна.
Об авторе
Ю. С. Нечаев
ЦНИИчермет им. И.П. Бардина, Институт металловедения и физики металлов им. Г.В. Курдюмова
Россия
д-р ф.-мат наук, профессор, главный научный сотрудник
Россия
д-р ф.-мат наук, профессор, главный научный сотрудник
Список литературы
1. Nechaev Yu.S., Filippova V.P., Alp Yurum, Yuda Yurum, Veziroglu N.T. The Reversible hydrogenation-dehydrogenation of membrane and epitaxial graphenes // Journal of Chemical Engineering and Chemical Research, Vol. 2, # 1 (2015) p.p. 421-457.
2. Nechaev Yu.S. and Nejat Veziroglu T. On the hydrogenation-dehydrogenation of graphene-layer-nanostructures: Relevance to the hydrogen on-board storage problem // Int. Journal of Physical Sciences, Vol. 10, Iss. 2 (2015) P. 54-89.
3. Nechaev Yu.S., Alp Yurum, Adem Tekin, Nilgun Karatepe Yavuz, Yuda Yurum, Veziroglu N.T. Fundamental open questions on engineering of super hydrogen sorption in graphite nanofibers: Relevance for clean energy applications // American Journal of Analytical Chemistry, Vol. 5, # 16 (2014) P. 1151-1165.
4. Nechaev Yu.S. and Veziroglu N.T. On thermodynamic characteristics of the thermal desorption of hydrogen from hydrogenated graphene layers. Chapter 4, in: Handbook of Carbon Nanomaterials, Vol. 5, Graphene – Fundamental Properties. Eds. F. D’Souza, K.M. Kadish. World Scientific Publ. Co Pte. Ltd., Singapore, (20014) P. 219-258.
5. Nechaev Yu.S. and Veziroglu N.T. Thermodynamic aspects of the stability of the graphene/graphane/hydrogen systems, relevance to the hydrogen on-board storage problem // Advances in Materials Physics and Chemistry. Vol. 3 (2013) P. 255-280.
6. Nechaev Yu.S., Veziroglu T.N. On thermodynamic stability of hydrogenated graphene layers, relevance to the hydrogen on-board storage // The Open Fuel Cells Journal. Vol. 6 (2013) P. 21–39.
7. Nechaev Yu.S. Physical and chemical interactions of hydrogen with carbonaceous nanostructures (An analytical study – indirect experiment). Chapter 2, in: Carbon Nanomaterials for Gas Adsorption. Eds. M.L. Teranova, S. Orlanducci, M. Rossi. Pan Stanford Publ. Pte. Ltd., Singapore (2013) P. 39-130.
8. Nechaev Yu.S. Solid hydrogen intercalation in closed graphane-hydride-like nanostructures, Relevance to the storage applications. Chapter 5, in: Nanotechnology, Vol. 6, Energy and Environment. Eds. S. Sinha, N.K. Navani, G.N. Govil. Stadium Press LLS, U.S.A. (2013) P. 111-136.
9. Nechaev Yu.S. On the solid hydrogen intercalation in multilayer carbohydride-like graphane nanostructures, relevance to storage applications // Journal of Nano Research, Vol. 15 (2011) P. 75-93.
10. Nechaev Yu.S. The high-density hydrogen carrier intercalation in graphane-like nanostructures, relevance to its on-board storage in fuel-cell-powered vehicles // The Open Fuel Cells Journal, Vol. 4 (2011) P.p. 16-29.
11. Nechaev Yu.S. On the solid hydrogen carrier intercalation in graphane-like regions in carbon-based nanostructures // Int. Journal of Hydrogen Energy, Vol. 36, # 15 (2011) P. 9023-9031.
12. Nechaev Yu.S. Carbon nanomaterials, relevance to solving the hydrogen storage problem // Journal of Nano Research, Vol. 12 (2010) P. 1-44.
Рецензия
Для цитирования:
Нечаев Ю.С. ОБ ИНТЕРКАЛЯЦИИ H2 НАНОФАЗЫ В ГРАФЕНОВЫЕ СЛОИСТЫЕ СТРУКТУРЫ В СВЯЗИ СО СПИЛЛОВЕР ЭФФЕКТОМ. Альтернативная энергетика и экология (ISJAEE). 2015;(6):37-40.
For citation:
Nechaev Yu.S. ON THE H2 NANOPHASE INTERCALATION INTO GRAPHENE-LAYERS STRUCTURES: RELEVANCE TO THE SPILLOVER EFFECT. Alternative Energy and Ecology (ISJAEE). 2015;(6):37-40. (In Russ.)
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