Advanced materials for electrochemical power sources

  1. K.A. Vorobeva, S.N. Eliseeva, R.V. Apraksin, M.A. Kamenskii, E.G. Tolstopjatova, V.V. Kondratiev Improved electrochemical properties of cathode material LiMn2O4 with conducting polymer binder // Journal of Alloys and Compounds 766 (2018) 33–44.
  2. A.O. Nizhegorodova, S.N. Eliseeva, E.G. Tolstopjatova, G.G. Láng, D. Zalka, M. Ujvári, V.V. Kondratiev EQCM study of redox properties of PEDOT/MnO2 composite films in aqueous electrolytes // Journal of Solid State Electrochemistry 22 (2018) 2357–2366.
  3. D.V. Zhuzhel’skii, K.D. Yalda, V.N. Spiridonov, R.V. Apraksin, V.V. Kondrat’ev Synthesis and Special Features of Electrochemical Behavior of Tungsten Oxide Deposited on Various Substrates // Russian Journal of General Chemistry 88 (2018) 520–527.
  4. S.N. Eliseeva, K.A. Vorob’eva, E.V. Shkreba, R.V. Apraksin, V.V. Kondrat’ev Electochemical characteristics of LiMn2O4/Li4Ti5O12 battery with conducting polymeric binder // Russian Journal of Applied Chemistry 90 (2017) 1230–1233.
  5. S.N. Eliseeva, R.V. Apraksin, E.G. Tolstopjatova, V.V. Kondratiev Electrochemical impedance spectroscopy characterization of LiFePO4 cathode material with carboxymethylcellulose and poly-3,4-ethylendioxythiophene /polystyrene sulfonate // Electrochimica Acta 227 (2017) 357–366.
  6. R.V. Apraksin, S.N. Eliseeva, E.G. Tolstopjatova , A.M. Rumyantsev, V.V. Zhdanov, V.V. Kondratiev High-rate performance of LiFe0.4Mn0.6PO4 cathode materials with poly(3,4-ethylenedioxythiopene):poly(styrenesulfonate)/ carboxymethylcellulose // Materials Letters 176 (2016) 248–252.
  7. S.N. Eliseeva, O.V. Levin, E.G. Tolstopjatova, E.V. Alekseeva, R.V. Apraksin, V.V. Kondratiev New functional conducting poly-3,4-ethylenedioxythiopene:polystyrene sulfonate/carboxymethylcellulose binder for improvement of capacity of LiFePO4-based cathode materials // Materials Letters 161 (2015) 117–119.
  8. O.V. Levin, S.N. Eliseeva, E.V. Alekseeva, E.G. Tolstopjatova, V.V. Kondratiev Composite LiFePO4/poly-3,4-ethylenedioxythiophene Cathode for Lithium-Ion Batteries with Low Content of Non-Electroactive Components // International Journal of Electrochemical Science 10 (2015) 8175–8189.

Conducting polymers

  1. D. Zalka, N. Kovács, K. Szekeres, M. Ujvári, S. Vesztergom, S. Eliseeva, V. Kondratiev, G.G. Láng, Determination of the charge transfer resistance of poly(3,4-ethylenedioxythiophene)-modified electrodes immediately after overoxidation // Electrochimica Acta 247 (2017) 321–332.
  2. R.V. Apraksin, A.I. Volkov, S.N. Eliseeva, V.V. Kondratiev, Influence of addition of lithium salt solution into PEDOT:PSS dispersion on the electrochemical and spectroscopic properties of film electrodes // Journal of Solid State Electrochemistry 21 (2017) 3487–3494.
  3. V.V. Kondratiev, V.V. Malev, S.N. Eliseeva Composite electrode materials based on conducting polymers loaded with metal nanostructures // Russ. Chem. Rev. 85 (2016), 14–37.
  4. G.G. Láng, M. Ujvári, S. Vesztergom, V. Kondratiev, J.Gubicza, K.J. Szekeres The electrochemical degradation of poly(3,4-ethylenedioxythiophene) films electrodeposited from aqueous solutions // Zeitschrift für Physikalische Chemie 230 (2016) 1281–1302.
  5. M. Ujvári. J. Gubicza, V. Kondratiev, K.J. Szekeres, G.G. Láng Morphological changes in electrochemically deposited poly(3,4-ethylenedioxythiophene) films during overoxidation // Journal of Solid State Electrochemistry, 19 (2015) 1247–1252.

Composite materials

  1. A.I. Volkov, S.N. Eliseeva, E.G. Tolstopjatova, V.V. Kondratiev Еlectrochemical properties of poly-3,4-ethylenedioxythiopene:polystyrene sulfonate/manganese oxide composite electrode material // J. Solid State Electrochem. 20 (2016) 3209–3212.
  2. A.N. Aleshin, P.S. Krylov, A.S. Berestennikov, V.V. Kondratiev, S.N. Eliseeva The redox nature of the resistive switching in nanocomposite thin films based on graphene (graphene oxide) nanoparticles and poly(9-vinylcarbazole) // Synthetic Metals 217 (2016) 7–13.
  3. E.G. Tolstopyatova, Ya.K. Saidova, A.M. Smolin, N.P. Novoselov, V.V. Kondrat’ev Synthesis of a water dispersion of the PEDOT:PSS/Pd composite and its use for the fabrication of an electrochemical sensor for hydrazine // Journal of Analytical Chemistry 71 (2016) 195–200.
  4. D.V. Zhuzhel’skii, K.D. Yalda, V.N. Spiridonov, S.N. Eliseeva, V.V. Kondratiev Electrochemical deposition of molybdenum oxide into films of poly(3,4-ethylenedioxythiophene) conducting polymer on glassy carbon substrates // Russian Journal of Applied Chemistry 89 (2016) 1252–1260.
  5. E.G. Tolstopjatova, S.N. Eliseeva, A.O. Nizhegorodova, V.V. Kondratiev Electrochemical properties of composite electrodes, prepared by spontaneous deposition of manganese oxide into poly-3,4-ethylendioxythiophene // Electrochimica Acta 173 (2015) 40–49.
  6. A.M. Smolin, N.P. Novoselov, T.A. Babkova, S.N. Eliseeva, V.V. Kondrat’ev Use of composite films based on poly(3,4-ethylenedioxythiophene) with inclusions of palladium nanoparticles in voltammetric sensors for hydrogen peroxide // Journal of Analytical Chemistry 70 (2015) 967–973.
  7. A. O. Nizhegorodova, R. V. Apraksin, V. V. Kondratiev Electrochemical Properties of Composite Materials Based on Poly-3,4-Ethylenedioxythiophene with Nickel Oxide Inclusions // Russian Journal of Electrochemistry 51 (2015) 908–915.
  8. E.G. Tolstopjatova, V.V. Kondratiev, S.N. Eliseeva Multi-layer PEDOT:PSS/Pd composite electrodes for hydrazine oxidation // Journal of Solid State Electrochemistry 19 (2015) 2951–2959.

Organometallic polymers

  1. N. Kuznetsov, P. Yang, G. Gorislov, Y. Zhukov, V. Bocharov, V. Malev, O. Levin Electrochemical transformations of polymers formed from nickel (II) complexes with salen-type ligands in aqueous alkaline electrolytes // Electrochimica Acta 271 (2018) 190–202.
  2. M.V. Novozhilova, E.A. Smirnova, J.A. Polozhentseva, J.A. Danilova, I.A. Chepurnaya, M. P. Karushev, V.V. Malev, A.M. Timonov Multielectron redox processes in polymeric cobalt complexes with N2O2 Schiff base ligands // Electrochimica Acta 282 (2018) 105–115.
  3. E. Dmitrieva, M. Rosenkranz, J.S. Danilova, E.A. Smirnova, M.P. Karushev, I.A. Chepurnaya, A.M. Timonov Radical formation in polymeric nickel complexes with N2O2 Schiff base ligands: An in situ ESR and UV–vis–NIR spectroelectrochemical study // Electrochimica Acta 283 (2018) 1742–1752.
  4. D. S. Kurchavov, M. P. Karushev, A. M. Timonov New Nickel(II) Complexes with Tetradentate Schiff Bases Containing Electron-Acceptor Substituents // Russian Journal of General Chemistry 88 (2018) 1553–1555.
  5. V. A. Ershov, E. V. Alekseeva, A. S. Konev, N. S. Chirkov, T. A. Stelmashuk, O. V. Levin Effect of Structure of Polymeric Nickel Complexes with Salen-Type Ligands on the Rate of Their Electroactivity Decay in Solutions of Water-Containing Electrolytes // Russian Journal of General Chemistry 88 (2018) 277–283.
  6. A.A. Vereschagin, V.V. Sizov, P.S. Vlasov, E.V. Alekseeva, A.S. Konev, O.V. Levin, Water-stable [Ni(salen)]-type electrode material based on phenylazosubstituted salicylic aldehyde imine ligand, New Journal of Chemistry, 41 (2017) 13918–13928.
  7. S.N. Eliseeva, E.V. Alekseeva, A.A. Vereshchagin, A.I. Volkov, P.S. Vlasov, A.S. Konev, O.V. Levin, Nickel-Salen Type Polymers as Cathode Materials for Rechargeable Lithium Batteries, Macromolecular Chemistry and Physics, 218 (2017) 1700361.
  8. E.V. Alekseeva, I.A. Chepurnaya, V.V. Malev, A.M. Timonov, O.V. Levin Polymeric nickel complexes with salen-type ligands for modification of supercapacitor electrodes: impedance studies of charge transfer and storage properties // Electrochimica Acta 225 (2017) 378-391.
  9. A.A. Vereshchagin, V.V. Sizov, M.S. Verjuzhskij, S.I. Hrom, A.I. Volkov, J.S. Danilova, M.V. Novozhilova, A. Laaksonen, O.V. Levin, Interaction of amines with electrodes modified by polymeric complexes of Ni with salen-type ligands // Electrochimica Acta, 211 (2016) 726-734.
  10. V.V. Sizov, M.V. Novozhilova, E.V. Alekseeva, M.P. Karushev, A.M. Timonov, S.N. Eliseeva, A.A. Vanin, V.V. Malev, O.V. Levin, Redox transformations in electroactive polymer films derived from complexes of nickel with SalEn-type ligands: computational, EQCM, and spectroelectrochemical study // Journal of Solid State Electrochemistry, 19 (2015) 453-468.
  11. O.V. Levin, M.P. Karushev, A.M. Timonov, E.V. Alekseeva, S. Zhang, V.V. Malev Charge transfer processes on electrodes modified by polymer films of metal complexes with Schiff bases // Electrochimica Acta 109 (2013) 153-161.

Modelling of mixed electron-ion charge transfer

  1. V.V. Malev, A phenomenological description of charge transfer within polaron-containing films with unramified polymer chains, Russian Journal of Electrochemistry, 53 (2017) 1145-1159.
  2. D.V.Anishchenko, O.V.Levin, V.V.Malev Double Layer Structural Effects in Cyclic Voltammetry Curves Complicated with Non-Equilibrium Injection of Charge Carriers into Redox Polymer Films // Electrochimica Acta 241 (2017) 375-385.
  3. D.V. Anishchenko, O.V. Levin, V.V. Malev, Quasi-equilibrium voltammetric curves of polaron-conducting polymer films, Electrochimica Acta, 188 (2016) 480-489.
  4. V.V. Malev Reformulation of charge transfer and material balance equations of polaron-containing polymer films, Electrochimica Acta 179 (2015) 288-296.
  5. V.V. Malev, O.V. Levin, V.V. Kondratiev Voltammetry of electrodes modified with pristine and composite films; theoretical and experimental aspects // Electrochimica Acta 122 (2014) 234-246.
  6. V.V. Kondratiev, O.V. Levin, V.V. Malev Charge Transfer and Electrochemical Reactions at Electrodes Modified with Pristine and Metal-Containing Films of Conducting Polymers, in “Advances in conducting polymer research” L. Michaelson (Ed.), Nova Science Publishers, 2014. P. 79-151.
  7. V.V. Malev, O.V. Levin, A.M. Timonov Quasi-equilibrium voltammetric curves resulting from the existence of two immobile charge carriers within electroactive polymer films // Electrochimica Acta 108 (2013) 313-320.
  8. V.V. Malev, O.V. Levin Criteria of the absence of short-range interactions within electroactive polymer films // Electrochimica Acta 80 (2012) 426-431.
  9. V.V. Malev, O.V. Levin Electrical currents resulting from reduction/ oxidation processes of testing particles on electrodes modified with metal-containing polymer films // Electrochimica Acta 56 (2011) 3586-3596.


  1. V.V. Kondratiev, S.N. Eliseeva, E.G. Tolstopyatova, A.O. Nizhegorodova, Electrochemical cell for synthesis of nanocomposite materials // Patent of Russian Federation № 149730, 2015.
  2. V.V. Kondratiev, S.N. Eliseeva, E.G. Tolstopyatova, A.O. Nizhegorodova, Method of nanocomposite materials production and device for its implementation // Patent of Russian Federation № 2568807, 2015.
  3. V.V. Kondratiev, O.V. Levin, E.G. Tolstopyatova, S.N. Eliseeva, E.V. Alekseeva, Composite cathode material for Li-ion batteries // Patent of Russian Federation № 2584678, 2016.
  4. O.V. Levin, M.V. Novozhilova, E.V. Alekseeva, M.S. Verjuzhskij, A.A. Vereshchagin, A method of determining amines in non-aqueous media // Patent of Russian Federation № 2613880, 2017.