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Batalov Nikolai Nikolaevich
RussiaYekaterinburg
Institute of high-temperature Electrochemistry UB of RAS, 20, Akademicheskaya St., Yekaterinburg, 620990head of the laboratoryCandidate of Chemistry Sciencesbatalov@ihim.uran.ru
Author's articles
- Investigation of transport in ternary lithium nitrides Li5TiN3, Li5SiN3 and oxynitrides Li9TiN3O2, Li9SiN3O2
- Thermodynamic simulation of oxide ionic equilibria in mixtures of alkali element carbonates
- On the stability of solid binary electrolytes based on lithium oxide and Al, Be, Sc, Zr and Y oxides with respect to metallic lithium
- Ionic conductivity and thermodynamic properties of lithium orthozirconate-based solid electrodes
- Synthesis of lithium metazirconate phase using thermodynamic simulations
- Influence of substitution of B-sublattice on lithium ion conductivity in perovskite-type oxide Li3xLa2/3-xTi1-yМеyO3 Me – Zr
- Chemical interaction in the cathode half-element of lithium ion batteries
- Литий-ионная проводимость замещенного литий-лантан титаната (Li3xLa2/3-x□1/3–2x)1+y/2Ti1-yAlyO3
- Calculation of thermodynamic properties of cobalt (III, IV) oxides and lithium cobaltite
- Degradation of matrix electrolyte under Molten Carbonate Fuel Cell environment
- Stability of lithium-conducting solid electrolytes to metal lithium (a thermodynamic simulation)
- Lithium-ionic conduction of solid solutions Li8Zr1 – xCexO6
- Calculation of structures of low-melting electrolits in threefold salt systems
- The equilibrate concentration of the electro-active species in (Li0.62K0.38)2CO3 melt and reaction mechanisms of the oxygen reduction on the gold electrode
- Electrolytic receiving silicon nanowires from KCl-KF-K2SiF6-SiO2 fusion as composite anodes for lithium-ion batteries
- Catalytic activity of LaLi0.1Co0.1Fe0.8O3-d cathode in (Li0.62K0.38)2CO3 melt. Part I. Experimental results and equivalent circuit for oxide – melt boundary
- Catalytic activity of lali0.1co0.1fe0.8o3-d cathode in (Li0.62K0.38)2CO3 melt. Part II. The reaction mechanisms and catalytic activity of the oxide electrode
- Catalytic activity of LaLi0.1M0.1Fe0.8O3-d (M = Fe, Co, Ni) oxides for molten carbonate fuel cell. Part 1. Polarization Characteristics of Porous Gas Diffusion Electrodes in (Li0.62K0.38)2CO3 Melt. An Experimental Study
- Catalytic activity oF LaLi0.1M0.1Fe0.8O3-d (M = Fe, Co, Ni) Oxides for molten carbonate fuel cell. Part 2. Reaction Mechanisms and Catalytic Activity in (Li0.62K0.38)2CO3 Melt
- Electrolytes for high-temperature chemical current sources: formation and research systems, composition and properties