Books and book chapters:


  • E.A. Kotomin, R. Merkle, Yu.A. Mastrikov, M.M. Kuklja, and J. Maier, Energy Conversion:  Solid Oxide Fuel Cells. First-Principles Modeling of Elementary Processes. - Chapter 6 in book:  Computational Approaches to Energy Materials (eds. A.Walsch, A.Sokol, C.R.A. Catlow, Wiley), 2013, p. 149-186.

  • S. Piskunov, J. Kazerovskis, Yu.F. Zhukovskii, P.N. Dyachkov, and S. Bellucci, Incorporation of Ni nanofilament in carbon nanotubes: DFT calculations. - Proc. Internat. Conf. „Physics, Chemistry and Application of Nanostructures (Nanomeeting-2013, Minsk, Belarus)” (Eds. V.E. Borisenko, S.V. Gaponenko, V.S. Gurin, and C.H. Kam;  World Scientific, New Jersey, London, Singapore), 2013, p. 139-142

  • Yu.F. Zhukovskii, D. Bocharov, D. Gryaznov, and E.A. Kotomin, First Principles Simulations on Surface Properties and Oxidation of Nitride Nuclear Fuels. - Chapter in book: Advances in Nuclear Fuel (Ed. Shripad T. Revankar, InTech Open Acess Publishers), 2012, p. 95-122.

  • E. Heifets, E.A. Kotomin, Yu.A. Mastrikov, S. Piskunov, and J. Maier, Thermodynamics of ABO3-type perovskite surface. - Chapter in a book: Thermodynamics - Interaction studies - Solids, liquids and gases (InTech Open Access Publishers), 2011, p. 491-518. 

  • V.N. Kuzovkov, E.A. Kotomin, G. Zvejnieks, K.D. Li, T.H. Ding, and L.M. Wang, Void Superlattice Formation  in Electron Irradiated  Materials. - Chapter 11 in e-book Series: "Advances in Materials Science Research" (Ed. Maryann C. Wythers, Nova Science Publishers), 2011, Vol. 2, p. 191-216.

  • Sickafus K. and Kotomin E.A. (eds.) Radiation Effects in Solids. - NATO ASI Science series II, Physics, Chemistry, Mathematics, 2006, vol. 235, Amsterdam, Berlin, Oxford, 560 p.

  • Catlow C.R.A. and Kotomin E.A. (eds.) Computational Materials Science.- NATO Science series III. Computer and System Sciences, 2003, vol. 187, Amsterdam, Berlin, Oxford.

  • Kotomin E.A. and Kuzovkov V.N., Modern Aspects of Diffusion-Controlled Processes: Cooperative Phenomena in Bimolecular Reactions. - Amsterdam: Elsevier (Vol. 34 in a series of Comprehensive Chemical Kinetics), 1996, 612 p.

    Selected chapters:
  • Kantorovich L.N., Kotomin E.A., Kuzovkov V.N., Shluger A.L., Tale I.A., and Zakis Yu.R., Models of defect processes in wide-gap solids (Russ). - Riga: Zinatne, 1991, 382 p.

  • Evarestov R.A., Kotomin E.A., and Ermoshkin A.N., Molecular models of point defects in wide-gap solids (Russ). - Riga: Zinatne, 1983. 287 p.

  • Rolov B.N., Ivin V.A., and Kuzovkov V.N., Statistics and kinetics of phase transitions in solid state (Russ). - Riga: Zinatne, 1979, 179 p.

Review Articles:

  • M.M. Kuklja, E.A. Kotomin, R. Merkle, Yu.A. Mastrikov, and J. Maier, Combined theoretical and experimental analysis of processes  determining cathode performance in solid oxide fuel cells. - Phys. Chem. Chem. Phys. (Perspective), 2013, 15, p. 5443-5471

  • Yu.F. Zhukovskii, E.A. Kotomin, R.A. Evarestov, and D.E. Ellis, Periodic models in quantum chemical simulations of F centers in crystalline metal oxides. - Intern. J. Quant. Chem., 2007, 107, p. 2956-2985.

  • E.A. Kotomin and A.I. Popov, The kinetics of radiation-induced point defect aggregation and metallic colloid formation in ionic solids. In: Radiation Effects in Solids (NATO ASI Science Series II. Physics, Chemistry and Mathematics, Vol. 235), Amsterdam, Berlin, Oxford, 2006, p. 153-192.

  • E.A. Kotomin, R.I. Eglitis, G. Borstel, and P.W.M. Jacobs, Modelling of point defects, polarons and exitons in ferroelectric perovskites. In: Computational Materials Science (NATO Science series III. Computer and System Sciences, Vol. 187), Amsterdam, Berlin, Oxford, 2003, p. 291-307.

  • E.A. Kotomin, E. Heifets, P.W.M. Jacobs, G. Borstel, W.A. Goddard Theoretical simulations of surface relaxation for perovskite titanates. - In: Proc. NATO ARW on Defects and Surface - Induced Effects in Advanced Perovskites, Riga, August 1999 (Kluwer 2000), p. 209-220.

  • V.N. Kuzovkov, Aggregation and Structure Formation in Reaction-Diffusion Processes in Chemical Systems. - In: Aggregation phenomena in complex systems (Chapter Nr 8), Eds. J. Schmelzer, G. Röpke, R. Mahnke (Weinheim: Wiley-VCH, 1999), p. 205-239. 

  • E.A. Kotomin and A.I. Popov Radiation-Induced Point Defects in Simple Oxides. - Proc. Int. Conference on Radiation Effects in Insulators (REI-9), Nuclear Instruments and Methods, 1998, B 141, p.1-15.

  • E.A. Kotomin and V.N. Kuzovkov, Phenomenological Theory of the Recombination and Accumulation Kinetics of Radiation Defects in Ionic Solids. - Rept. Progr. Phys., 1992, 55, p. 2079-2202.

  • V.L. Vinetsky, Yu.R. Kalnin, E.A. Kotomin, and A.A. Ovchinnikov, Radiation-induced Frenkel Defect Aggregation in Solids. - Sov. Phys.-Uspekhi, 1990, 33, p.793-811.

  • V.N. Kuzovkov and E.A. Kotomin, Kinetics of Bimolecular Reactions in Condensed Media. - Rept. Progr. Phys., 1988, 51, p. 1479-1524. 

  • A.B. Doktorov and E.A. Kotomin Theory of Tunnelling Recombination of Defects Stimulated by Their Motion. (I). General formalism. - Phys. Stat. Solidi (b), 1982, 114, p. 9-14.

  • E.A. Kotomin and A.V. Doktorov Theory of Tunnelling Recombination of Defects Stimulated by Their Motion. (II). Three Recombination Mechanisms. - Phys. Stat. Solidi (b), 1982, 114, p. 287-318.