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Yevgeniy Naumovich

Dr hab. Yevgeniy (E.N.) Naumovich

Stanowisko: Adiunkt
Zakład Wysokotemperaturowych Procesów Elektrochemicznych
Tel.: + +48 797 905 119
Adres: 02-981 Warszawa ul. Augustówka 36

ORCID: 0000-0003-2081-7475


Działalność badawczo-rozwojowa

High-temperature electrochemistry and material science of the oxides, including:

Elaboration of the appropriate methodology and characterization of the special materials for structural component of the SOFC.

Development of the new approaches for description of the of point defects interaction, oxide ion and electron mobility in complex oxides in wide range of oxygen chemical potentials and temperatures.

Analysis and simulation of conjugate transport phenomena in mixed conductors (diffusion, permeability, ionic conductivity).

Elaboration of special designed software for simulation and non-linear fitting of oxygen non-stoichiometry and conductivity vs. p(O2) and temperature data sets.

Atomistic simulations of the complex oxides with high mobility of the oxygen ions.

Application of the indicated above approaches to elaboration of novel materials with high oxygen mobility on a basis of complex oxides with perovskite, fluorite and derived structures, including cobaltites, ferrites and nikelates aimed on the materials for the electrocatalytic membranes and electrodes for SOFC


Inne doświadczenia i dziedziny zainteresowań:

Scientific software development (C/C++) for simulation, data analysis and automation of the measurements.


Projekty naukowe (since 2000)

  • Nowe podejście do wytwarzania paliw syntetycznych: złożone badania procesów anodowych stałotlenkowego elektrolizera wspomaganego paliwem w formie stałej (DC-SOFEC), konkurs HARMONIA (2019-2022)- kierownik projektu.
  • Quest for novel materials for solid oxide cell interconnect coatings, Narodowe Centrum Nauki, konkurs HARMONIA (2018-2021)- kierownik projektu i główny wykonawca w Instytucie Energetyki.
  • Opracowanie oraz badania hybrydowego reaktora SOE/MCFC do syntezy lekkich węglowodorów w oparciu o wysokotemperaturowe procesy elektrochemiczne (2017/25/B/ST8/00869, Narodowe Centrum Nauki, konkurs OPUS (2018-2021) - kierownik projektu.
  • Experimental and numerical investigations of the influence of particulate matter presence in the gaseous fuel on the reaction of electrochemical oxidation of fuel in a SOFC. PRELUDIUM, NCN (2017-2019)-  opiekun naukowy.
    • Study of mass transfer mechanism in porous media at high temperature and in significant concentrations gradients of gas components conditions. PRELUDIUM, NCN (2017-2019)-  opiekun naukowy.
    • Projekt BALANCE (H2020) Increasing penetration of renewable power, alternative fuels and grid flexibility by cross-vector electrochemical processes (2016-2019) – członek zespołu /kierownik projektu z ramienia IEn (2016-2017).
    • Projekt pt. Badanie mechanizmów wydzielania węgla z paliw gazowych na powierzchni materiałów porowatych w warunkach przepływu laminarnego (PRELUDIUM, NCN) – opiekun naukowy (2016-2018)
    • Projekt NewSOFC (INNOCHEM NCBR) New designs, materials and manufacturing technologies of advanced solid oxide fuel cells (2016-2019)
    • Projekt Strategiczny NCBR Opracowanie zintegrowanych technologii wytwarzania paliw i energii z biomasy, odpadów rolnych i innych (2010-2015)
    • FCT  PTDC/CTM-CER/114561/2009 - kierownik projektu
    • FCT PTDC/CTM-CER/114209/2009 – członek zespołu
    • FCT  PTDC/CTM/64357/2006 - członek zespołu
    • FCT  POCI/CTM/59197/2004 – kierownik projektu
    • FCT POCI/CTM/58570/2004  - członek zespołu
    • NATO SfP 978002 "Syngas" – członek zespołu
    • INTAS-2000-0276 – lider zespołu

Also participated as team member in: ULCOS (CEC), SOFCNET (CEC), COST525 (CEC), MatSILC (CEC).



Total number of papers in refereed journals and issues circa 150, including 4 reviews.


Most recent papers:

O.V. Merkulov, A.A. Markov, E. N. Naumovich, E.V. Shalaeva, I.A. Leonidov, M.V. Patrakeev, Non-uniform electron conduction in weakly ordered SrFe1−xMoxO3−δ. Dalton Trans., 2019, 48, 4530–4537.


J. Kupecki, D. Papurello, A. Lanzini, Y. Naumovich, K. Motylinski, M. Blesznowski, M. Santarelli, Numerical model of planar anode supported solid oxide fuel cell fed with fuel containing H2S operated in direct internal reforming mode (DIR-SOFC), Applied Energy 230 (2018) 1573–1584


E.V. Tsipis, E.N. Naumovich, M.V. Patrakeev, V.V. Kharton, Oxygen intercalation in Ruddlesden-Popper type Sr3LaFe3O10-d, Materials Letters 218 (2018) 325–328


O.V. Merkulov, E.N. Naumovich, M.V.Patrakeev, A.A. Markov E.V. Shalaeva, V. V. Kharton, E.V. Tsipis, J. C.Waerenborgh, I. A. Leonidov V. L. Kozhevnikov, Defect formation, ordering, and transport in SrFe1–xSixO3–δ (x = 0.05–0.20), J. Solid State Electrochem (2018) 22: 727


A.A. Yaremchenko, M.V. Patrakeev, E.N. Naumovich, D.D. Khalyavin, The p(O2)–T stability domain of cubic perovskite Ba0.5Sr0.5Co0.8Fe0.2O3-d, Physical Chemistry Chemical Physics, 2018, 20, 4442-4454


E. Molenda J., Kupecki J., Baron R. et al. Status report on high temperature fuel cells in Poland - recent advances and achievements, Int. Journal of Hydrogen Energy 2017;42(7):4366-4403


E.N. Naumovich, K. Zakharchuk, S. Obrębowski, A. Yaremchenko, (La,Sr)(Fe,Co)O3-based cathode contact materials for intermediate-temperature solid oxide fuel cells, Int. Journal of Hydrogen Energy 42 (2017) 29443-29453


Merkulov OV; Naumovich EN; Patrakeev MV, Markov, AA, Bouwmeester HJM, Leonidov IA, Kozhevnikov VL, Oxygen nonstoichiometry and defect chemistry of perovskite-structured SrFe1-xMoxO3-d solid solutions, Solid State Ionics (2016), Vol. 292, Pages: 116-121.


Yaremchenko AA, Naumovich EN, Patricio SG, Merkulov OV, Patrakeev MV, Frade JR, Rare-Earth-Substituted Strontium Titanate: Insight into Local Oxygen-Rich Structures and Redox Kinetics, inorganic chemistry (2016), Vol. 55 Issue: 10 Pages: 4836-4849


Ferreira NM, Kovalevsky AV, Naumovich EN, Yaremchenko AA, Zakharchuk KV, Costa FM, Frade JR, Effects of transition metal additives on redox stability and high-temperature electrical conductivity of (Fe,Mg)3O4 spinels, Journal Of The European Ceramic Society (2014) Vol.: 34, Issue: 10, Pages: 2339-2350.


A.V. Kovalevsky, A.A. Yaremchenko, E.N. Naumovich, N.M. Ferreira, S.M. Mikhalev, F.M. Costa, J.R. Frade, Redox stability and high-temperature electrical conductivity of magnesium- and aluminium-substituted magnetite,  Journal Of The European Ceramic Society  Vol. 33  (Nov 2013) Issue: 13-14   Pp: 2751-2760.


A.L. Shaula, V.A. Kolotygin, E.N. Naumovich, Y.V. Pivak and V.V. Kharton, Oxygen Ionic Transport in Brownmillerite-Type Ca2Fe2O5-δ and Calcium Ferrite-Based Composite Membranes, Solid State Phenomena Vol. 200 (2013) pp 286-292.


A.L. Shaula, A.A. Markov, E.N. Naumovich, J.C. Waerenborgh, Y.V. Pivak, V.V. Kharton, Redox behavior and transport properties of brownmillerite Ca2(Fe,M)2O5±δ (M = Mn, Co), Solid State Ionics 225 (2012) 206–210


Andrei V. Kovalevsky,Eugene N. Naumovich, Aleksey A. Yaremchenko, Jorge R. Frade, “High-temperature conductivity, stability and redox properties of Fe3−xAlxO4 spinel-type materials”. Journal of the European Ceramic Society 32 (2012) 3255–3263.


Joao C. Waerenborgh, Ekaterina V. Tsipis, Laura C. J. Pereira, Maxim Avdeev, Eugene N. Naumovich and Vladislav V. Kharton, Magnetization, Moessbauer and isothermal dilatometric behavior of oxidized YBa(Co,Fe)4O7+d, Dalton Trans., 2012, 41, 667. 


Yaremchenko AA, Kovalevsky AV, Naumovich EN, Kharton VV, Frade JR (2011) Hightemperature electrical properties of magnesiowustite Mg1-xFexO and spinel Fe3-x-yMgxCryO4 ceramics, Solid State Ionics, 192, 252-258.


Tsipis EV, Naumovich EN, Patrakeev MV, Yaremchenko AA, Marozau IP, Kovalevsky AV, Waerenborgh JC, Kharton VV (2011) “Oxygen deficiency, vacancy clustering and ionic transport in (La,Sr)CoO3-d”, Solid State Ionics, 192, 42-48.



10 most cited papers:


V.V.Kharton, F.M.Figueiredo, L.Navarro, E.N.Naumovich, A.V.Kovalevsky, A.A.Yaremchenko, A.P.Viskup, A.Carneiro, F.M.B.Marques and J.R.Frade. "Ceria-based materials for solid oxide fuel cells." Journal of Materials Science 36 (2001): 1105-1117.


V.V.Kharton, A.A.Yaremchenko, A.V.Kovalevsky, A.P.Viskup, E.N.Naumovich and P.F.Kerko. "Perovskite-type oxides for high-temperature oxygen separation membranes." Journal of Membrane Science 163 (1999): 307-317


V.V.Kharton, A.A.Yaremchenko and E.N.Naumovich. "Research on the electrochemistry of oxygen ion conductors in the former Soviet Union. II. Perovskite-related oxides." Journal of Solid State Electrochemistry 3 (1999): 303-326.


V.V.Kharton, A.P.Viskup, A.V.Kovalevsky, E.N.Naumovich and F.M.B.Marques. "Ionic transport in oxygen-hyperstoichiometric phases with K2NiF4-type structure." Solid State Ionics 146 (2001): 337-353


V.V.Kharton, A.P.Viskup, E.N.Naumovich and F.M.B.Marques. "Oxygen ionic transport in La2NiO4-based ceramics." Journal of Materials Chemistry 9 (1999): 2623-2630.


V.V. Kharton, A.V. Kovalevsky, A.P. Viskup, A.L. Shaula, F.M. Figueiredo, E.N. Naumovich and F.M.B. Marques. "Oxygen transport in Ce0.8Gd0.2O2-d - based composite membranes." Solid State Ionics 160 (2003): 247-258.


V.V.Kharton, A.V.Kovalevsky, A.P.Viskup, F.M.Figueiredo, A.A.Yaremchenko, E.N.Naumovich and F.M.B.Marques. "Oxygen permeability of Ce0.8Gd0.2O2-d - La0.7Sr0.3MnO3-d composite membranes." Journal of the Electrochemical Society 147 (2000): 2814-2821.


V.V.Kharton, E.N.Naumovich and A.V.Nikolaev. "Materials of high temperature oxygen electrochemical membranes." Journal of Membrane Science 111 (1996): 149-157.


V.V. Kharton, A.A. Yaremchenko, M.V. Patrakeev, E.N.Naumovich and F.M.B. Marques. "Thermal and chemical induced expansion of La0.3Sr0.7(Fe,Ga)O3-d ceramics." Journal of the European Ceramic Society 23 (2003): 1417-1426


V.V.Kharton, E.N.Naumovich, A.A.Vecher and A.V.Nikolaev , "Oxide ionic conduction in Ln(Sr)CoO3 (Ln= La,Pr,Nd)." Journal of Solid State Chemistry  (1995), vol.120, pp.128-136.