04.06.01 Chemical Sciences
18.06.01 Chemical technology
MODELING OF ELECTROCHEMICAL PROCESSES
Scientific direction:
Modeling the kinetics of electrode and corrosion processes in aqueous solutions
Studied aspects:
· Modeling of electrodeposition of loose metal sediments
· Methods for the preparation and study of the properties of catalytically active surfaces
· Development of new prognostic methods for studying the processes of destruction of metals and materials
The most striking scientific results:
· Creating a model of metal deposition on non-equipotential surfaces
· Modeling of processes on fractal surfaces
· Development of electrochemical methods for improving the energy efficiency of cathodic protection
Career opportunities:
Participation in research projects and grants in the field of priority areas of development of science and technology, the possibility of continuing research activities as an employee of Ural Federal University or Ural Branch of the Russian Academy of Sciences
Additional requirements of the supervisor:
· Basic knowledge of electrochemical kinetics
· Possession of the basic methods for the study of electrochemical processes
Main publications:
· T.N. Ostanina, V.M. Rudoy, V.S. Nikitin, A.B. Darintseva, S.L. Demakov. Change in the physical characteristics of the dendritic zinc deposits in the stationary and pulsating electrolysis //Journal of Electroanalytical Chemistry 784 (2017) 13–24
· Nikitin V.S., Rudoy V.M., Ostanina T.N., Dolmatova E.A. Determination of the surface of loose precipitation of metals by the method of impedance spectroscopy. Journal of Analytical Chemistry. 2017. Vol. 72, No. 4, pp. 335-340.
· T.N. Ostanina, V.M. Rudoi, A.V. Patrushev, A.B. Darintseva, A.S. Farlenkov. Modelling the dynamic growth of copper and zinc dendritic deposits under the galvanostatic electrolysis conditions // Journal of Electroanalytical Chemistry. – 2015. - V. 750. - P 9–18.
· T.N. Ostanina, V.M. Ore, V.S. Nikitin, A.B. Darintseva, O.L. Zalesova, N.М.Porotnikova Determination of the surface of dendritic electrolytic powders of zinc and evaluation of its fractal dimension. News of universities. Powder metallurgy functional coatings. 2014. № 3. P. 15-20
Popov A.V., Rudoy V.M., Zhelobetsky V.A., Ostanin N.I., Alimpiev P.A. The effect of aftereffects on the dissolution of steel anode earthing. // Corrosion: materials, protection. 2013. - № 3. - p. 16-20
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Created / Updated: 24 March 2019 / 9 February 2022
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