Glebova Nadezhda Victorovna

Ph.D., senior researcher + RSF project participant

glebova@mail.ioffe.ru

Nadezhda Glebova. Since 2008, she has been with the Division of Solid State Electronics, Ioffe Institute. Research is aimed at improving the energy conversion efficiency in hydrogen fuel cells. As a result, a physicochemical concept of electrode processes in electrochemical electrodes containing nanostructured forms of functionalized carbon was created; created a new class of electrode materials for electrochemical energy with high energy conversion efficiency. Specialist in the field of electrochemical research methods, thermogravimetric analysis.

Curriculum vitae

Name: Nadezhda Glebova / Надежда Викторовна Глебова

Born: 18 July 1986, Novgorod, Russia

Education, degrees: Ioffe Institute, Ph.D. 2012

Saint-Petersburg State Institute of Technology, Technology of inorganic materials, Specialist, 2008

Prizes

The prize of the Government of St. Petersburg (L. Euler Award), 2019

Medal of the Russian Academy of Sciences for the cycle of work “Development of scientific and technological principles for energy-efficient electrochemical energy conversion systems”, 2015

Fields of interest

Hydrogen energy, fuel cells, nanomaterials, catalysts, nanotubes, electrochemical methods, thermal analysis.

Selected publications

  1. V. Menshchikov, A. Alekseenko, V. Guterman, A. Nechitailov, N. Glebova, A. Tomasov, O. Spiridonova, S. Belenov, N. Zelenina and O. Safronenko, Effective Platinum-Copper Catalysts for Methanol Oxidation and Oxygen  Reduction in PEM FC // Nanomaterials. 2020 (In print)
  2. Glebova N.V., Nechitailov A.A., Krasnova A.O., Tomasov A.A., Zelenina N.K. Composite Cathode of a Hydrogen Fuel Cell with a High Energy Conversion Factor // Technical Physics. 2019.Vol. 64, 12. P. 1879-1884;
  3. A. A. Nechitailov, N. V. Glebova, A. O. Krasnova  Structure formation model in the Pt/C–CNT–Nafion system  // Journal of Structural Chemistry. 2019. V. 60, №. 9. P. 1507-1519. DOI: 10.1134/S0022476619090166;
  4. A. A. Nechitailov, N. V. Glebova, A. A. Tomasov, A. O. Krasnova, N. K. Zelenina Study of the Heterogeneity of a Mixed-Conducting Electrochemical Electrode // Technical Physics. 2019. 64, No. 6. 839–847. DOI: 10.1134/S1063784219060136;
  5. Glebova N.V., Nechitailov A.A., Velichko E.N. Characteristics of the composite platinum-carbon electrode containing carbon nanofibres // Journal of Physics: Conf. Series. 2019. V. 1238. P. 012004 doi: 10.1088/1742-6596/1236/1/012004;
  6. A E Karpunin, I V Pleshakov, O V Proskurina, V I Gerasimov, A A Nechitailov, N V Glebova, A V Varlamov, M V Parfenov Optical study of composite material with nanosized fullerenol inclusions // Journal of Physics: Conf. Series. 2019. V. 1238. P. 012012. doi:10.1088/1742-6596/1236/1/012012;
  7. Glebova N.V., Krasnova A.O., Nechitailov A.A. Thermally expanded graphite as functional material in the technology of electrode material with mixed conductivity. // Russian journal of applied chemistry. 2018. V. 91, No. 8. P. 1262-1271. DOI: 10.1134/S1070427218080037;
  8. Nechitailov A. A., Glebova N. V., Tomasov A. A., Krasnova A. O., Zelenina N. K., The Ionic Resistance of a Nanostructured Membrane Electrode Assembly under Nonequilibrium Conditions // Technical Physics Letters, 2018, Vol. 44, No. 12, pp. 1104–1107 DOI: 10.1134/S1063785018120325;
  9. Orlova T.S., Shpeizman V.V., Glebova N.V., Nechitailov A.A., Spitsyn A.A., Ponomarev D.A., Gutierrez-Pardo A., Ramirez-Rico J. Environmentally friendly monolithic highly-porous biocarbons as binder-free supercapacitor electrodes // Rev.Adv.Mater. Sci. 2018. V. 55. P. 50-60;
  10. Glebova N.V., Krasnova A.O., Tomasov A.A., Zelenina N.K., Nechitailov A.A. Method of measuring the diffusion resistance of the structures of porous electrode materials based on a proton-conducting ionomer and carbon nanomaterials // Technical Physics. 2017. V. 62, No. 12. P. 1863–1868. DOI: 10.1134/S106378421712009X.;
  11. Glebova N.V., Krasnova A.O., Tomasov A.A., Zelenina N.K., Gushchina E.V., Dunaevskii M.S., Nechitailov A.A. Structure of platinum–carbon electrodes containing various forms of Nafion proton-conducting polymer // Technical Physics. 2017. Vol. 62, No. 11., pp. 1698-1702. DOI: 10.1134/S106378421711010X;
  12. Gurevich S.A., Il`yushchenkov D.S., Yavsin D.A., Glebova N.V., Nechitailov A.A., Zelenina N.K., Tomasov A.A. Charge state and activity of Pt/C catalysts in oxygen reduction reaction // Russ. J. Electrochem. 2017. v.53. P. 567-574 DOI: http://dx.doi.org/10.1134/S1023193517060052.