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  1. No Access

    Article

    Photochemical reactions of stable phenoxyl radicals with oxygen

    A. V. Melezhik, L. N. Ganyuk, V. D. Pokhodenko in Theoretical and Experimental Chemistry (1977)

  2. No Access

    Article

    Study of photochemical transformations of highly excited stable phenoxyl radicals in solutions

    L. N. Ganyuk, A. V. Melezhik, V. D. Pokhodenko in Theoretical and Experimental Chemistry (1977)

  3. No Access

    Article

    Interrelationship of spectral and photochemical properties of stable free radicals and biradicals

    A. V. Melezhik, L. N. Ganyuk, V. D. Pokhodenko in Theoretical and Experimental Chemistry (1979)

  4. No Access

    Article

    X-ray photoelectron study of the surface of expanded and expandable graphite

    Based on analysis of the x-ray photoelectron spectra of expandable graphite obtained in hydrolysis of graphite bisulfate and expanded graphite obtained upon thermolysis of intercalated graphite compound with t...

    V. S. Talanov, A. V. Melezhik, A. A. Chuiko in Theoretical and Experimental Chemistry (1993)

  5. No Access

    Article

    Kinetic properties of vanadium compounds intercalated into the matrix of lamellar zirconium phosphate

    The intercalation of vanadium compounds into the matrix of lamellar zirconium phosphate leads to a significant increase in the activity and selectivity of vanadium oxide catalytic sites in the gas phase oxidat...

    L. V. Bogutskaya, A. V. Melezhik, E. I. Oranskaya in Theoretical and Experimental Chemistry (1996)

  6. No Access

    Article

    Carbon nanostructures as hydrogen sorbent for anode of a chemical power cell

    Carbon nanofibers with a porous structure and a specific surface area of 300– 475 m2 g1 were synthesized by pyrolysis of acetylene on iron-containing catalysts. The possibility of using the carbon nanostructures ...

    M. O. Danilov, A. V. Melezhik in Russian Journal of Applied Chemistry (2004)

  7. No Access

    Article

    Synthesis of Porous Carbon Nanofibers on Catalysts Fabricated by the Mechanochemical Method

    A mechanochemical method for fabrication of catalysts for vapor-phase deposition of porous carbon nanofibers from acetylene is suggested.

    A. V. Melezhik, Yu. I. Sementsov, V. V. Yanchenko in Russian Journal of Applied Chemistry (2005)

  8. No Access

    Article

    Synthesis of Fine Carbon Nanotubes on Coprecipitated Metal Oxide Catalysts

    Catalysts for vapor-phase deposition of multi-walled carbon nanotubes are considered. A method for synthesis of iron-containing catalyst by coprecipitation of aluminum, magnesium, and iron(II) hydroxides is su...

    A. V. Melezhik, Yu. I. Sementsov, V. V. Yanchenko in Russian Journal of Applied Chemistry (2005)

  9. No Access

    Article

    Carbon Nanotubes as Catalyst Supports for Oxygen Electrodes

    Carbon nanotubes modified with manganese dioxide were prepared. Manganese dioxide was deposited by reduction of KMnO4 in solution using formic acid or nanotube carbon. The electrochemical properties of oxygen ele...

    M. O. Danilov, A. V. Melezhik, N. I. Danilenko in Russian Journal of Applied Chemistry (2005)

  10. No Access

    Article

    Effect of the matrix composition on the activity of metal oxide catalysts in CVD synthesis of carbon nanotubes

    Citrate-nitrate method was used to synthesize (Fe,Co)/MgO-Al2O3, (Fe,Mo)/MgO-Al2O3, and (CoMo)/MgO-Al2O3 catalysts for production of carbon nanotubes. Multi-walled nanotubes were formed on these catalysts by cata...

    A. V. Melezhik, I. V. Romantsova, T. P. D’yachkova in Russian Journal of Applied Chemistry (2012)