Search Results - "Kupriyanov, L. Yu"

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  1. 1
    SERS from light localization positions

    SERS from light localization positions by Maksimenko, V. V., Kupriyanov, L. Yu, Zagaynov, V. A., Agranovski, I. E.

    Published in Journal of Raman spectroscopy (01-03-2013)
    “…The proposed model allows to analyze reasons for surface enhanced Raman scattering (SERS) by molecules adsorbed onto surface of metal particles. It considers…”
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  2. 2
    Effective dielectric permeability of a fractal cluster

    Effective dielectric permeability of a fractal cluster by Maksimenko, V. V., Kupriyanov, L. Yu, Zagainov, V. A.

    Published in Nanotechnologies in Russia (01-12-2009)
    “…Using methods of multiple scattering theory, the effective dielectric permeability of a micron fractal cluster composed of non-absorbing nanoparticles is…”
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  3. 3
    The retarded diffusion of polar molecules in an assembly of conducting nanoparticles and its influence on the sensitivity of semiconductor sensors

    The retarded diffusion of polar molecules in an assembly of conducting nanoparticles and its influence on the sensitivity of semiconductor sensors by Maksimenko, V. V., Kupriyanov, L. Yu, Zagainov, V. A.

    Published in Nanotechnologies in Russia (01-08-2009)
    “…The influence that the electric dipole moment of the molecules has on the characteristics of their diffusion in the environment of a large amount of…”
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  4. 4
    Self-organization in thin films of nanocomposite silicon-carbon

    Self-organization in thin films of nanocomposite silicon-carbon by Kupriyanov, L. Yu, Galyamov, B. Sh, Kozlova, N. V., Roginskaya, Yu. E.

    Published in Nanotechnologies in Russia (01-08-2009)
    “…In order to develop new materials for lithium batteries, thin films on based on Si/C nanocomposite have been synthesized and investigated. These films are…”
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  5. 5
    Nanostructure of silicon-carbon composite thin films obtained using magnetron sputtering technique

    Nanostructure of silicon-carbon composite thin films obtained using magnetron sputtering technique by Kupriyanov, L. Yu, Roginskaya, Yu. E., Kozlova, N. V., Politova, E. D., Kal’nov, V. A., Zhikharev, E. N.

    Published in Nanotechnologies in Russia (01-10-2011)
    “…Nanocomposite silicon-carbon thin films have been obtained using the layer-by-layer magnetron sputtering technique. The film thickness amounts to 110–470 nm…”
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  6. 6
    The structure and charge-storage capacitance of carbonized films based on silicon-polymer nanocomposites

    The structure and charge-storage capacitance of carbonized films based on silicon-polymer nanocomposites by Zavyalov, S. A., Kulova, T. L., Kupriyanov, L. Yu, Roginskaya, Yu. E., Skundin, A. M.

    Published in Russian Journal of Physical Chemistry A (01-12-2008)
    “…New film materials for electrodes of lithium batteries were synthesized and studied. Thin-film silicon-polymer composites were prepared by vacuum…”
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  7. 7
    The microstructure of and charge transfer in thin films based on metal-polymer nanocomposites

    The microstructure of and charge transfer in thin films based on metal-polymer nanocomposites by Zav’yalov, S. A., Kupriyanov, L. Yu, Pivkina, A. N., Shounman, J.

    Published in Russian Journal of Physical Chemistry (01-09-2006)
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  8. 8
    The microstructure of and charge transfer in thin films based on metal-polymer nanocomposites

    The microstructure of and charge transfer in thin films based on metal-polymer nanocomposites by Zav’yalov, S. A., Kupriyanov, L. Yu, Pivkina, A. N., Schoonman, J.

    Published in Russian Journal of Physical Chemistry A (01-03-2007)
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  9. 9
    Room-temperature Coulomb fingerprints in thin films of a Cu+SiO2 composite material

    Room-temperature Coulomb fingerprints in thin films of a Cu+SiO2 composite material by Gurevich, S. A., Horenko, V. V., Zarayskaya, T. A., Kupriyanov, L. Yu, Kupriyanov, M. Yu, Vasilevskaya, T. N., Vyshenski, S. V.

    Published in JETP letters (25-11-1996)
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