TOPIC 3 MATERIALS FOR FUEL CELLS
  • Baranov I.Å., Fateev V.N., Grigor'ev S.A., Rusanov V.D. Power systems on the basis on fuel cells with solid polymer electrolyte (review).
  • Loutfy R., Shapovalov V., Veksler E., Boyko L. Oxygen source for isolated fuel cells.
  • Baranov I.E., Grigor'ev S.A., Fateev V.N., Kostin V.I. Water transport in catalytic and hydrophobic layers of a fuel cell with solid polymer electrolyte.
  • Kazim A. Determination of optimum performance of a PEM fuel cell based on its limiting current density.
  • Konstantinova T.E., Doroshkevich A.S., Danilenko I.A., Volkova G.K., Glazunova V.A., Voloshin V.N. Peculiarities of crystal structure formation of ZrO2-3 mol.% Y2O3 nanopowders.
  • Sidorov N.I., Pastukhov E.A., Gabis I.E., Timofeev N.I., Rudenko V.K. The neighbor ordering and the transport of hydrogen in the amorphous alloy based on iron.
  • Aksenova T.I., Khromushin I.V., Bukenov K.D., Medvedeva Z.V. Influence of cation doping on anion sublattice of barium and strontium cerates.
  • Tokiy N.V., Konstantinova T.Ye., Savina D.L., Tokiy V.V. Modeling dehydration and dehydrogenation in pure and Ba-, Ca-, Sr- or Y-modified zirconia nanolayer.
  • Tsuchiya B., Nagata S., Toh K., Shikama T. Hydrogen absorption of ion-irradiated proton conducting oxide ceramics.
  • Sursaeva V.G. Investigation of two dimensional grain growth in Au films.
  • Bondarenko T.N., Zyrin A.V. Use of X-ray spectroscopy for studying electronic structure of fuel cell cathodic materials.
  • Rodionov Yu.L., Korms I.A., Mishanin S.V. Mogutnov B.M. High-temperature invar alloys destined to match with ceramics of high-temperature fuel cells.
  • Konstantinova T.E., Mukhachev A.P. Zirconia nanopowders : opportunities of obtaining and application.
  • Kamalov M.M., Myshlyaeva M.M., Medvedev A.S., A.K. Zolotarev, Myshlyaev M.M. Multistage high strain rate superplasticity of microcrystalline materials.
  • Wexler E., Loutfy R., Kindler A. Compact condenser for direct methanol fuel cells.