iliachepkasov

Ilia Chepkasov

Education:

2013 – Ph.D. in condensed matter physics (Altai State Technical University)

2010 –  Basic classical education, Physics

Employment:

2020-present  – Research Scientist, Skolkovo Institute of Science and Technology, Moscow

2014-2020 –  Researcher, Assistant Professor, Khakas State University, Abakan, Russia

2019-2020  – Visiting  Researcher at the Inorganic Nanomaterial Laboratory, National University of Science and Technology “MISIS, Moscow, Russia

2018-2019  – Visiting Researcher at the Atomistic simulations of irradiation-induced phenomena, Helmholtz-Zentrum Dresden-Rossendorf, Dresden, Germany

 

nanoparticles, gas-phase condensation, thermodynamic properties of nanoalloy, electron properties of nanoalloy, 2D material, DFT, MD

  1. Chepkasov I. V., Ghorbani-Asl M., Popov Z. I., Smet J. H., Krasheninnikov A. V. Alkali metals inside bi-layer graphene and MoS2: insights from first-principles calculations // Nano Energy. – 2020. – С. 104927.
  2. Chepkasov I.V., Baidyshev V.S., Sukhanova E.V., Visotin M.A., Süle P., Popov Z.I. Iron silicides formation on Si (100) and (111) surfaces through theoretical modeling of sputtering and annealing // Applied Surface Science. – 2020. – С. 146736.
  3. Konopatsky, A.S., Leybo, D.V., Firestein, K.L., Chepkasov, I.V., Popov, Z.I., Permyakova, E.S., Volkov, I.N., Kovalskii, A.M., Matveev, A.T., Shtansky, D.V., Golberg, D.V. Polyol Synthesis of Ag/BN Nanohybrids and their Catalytic Stability in CO Oxidation Reaction // ChemCatChem. – 2020. https://doi.org/10.1002/cctc.201902257
  4. Ponomarev V., Sheveyko A. N., Permyakova E. S., Lee J., Voevodin A. A., Berman D, Manakhov A., Michlicek M., Slukin P., Firstova V., Ignatov S., Chepkasov I. V., Popov Z. I., Shtansky D.V. TiCaPCON-Supported Pt-and Fe-based Nanoparticles and Related Antibacterial Activity // ACS Applied Materials & Interfaces – –V. 11 – № 32. – P.28699-28719
  5. Chepkasov I. V., Visotin M. A., Kovaleva E. A., Manakhov A. M., Baidyshev V. S., Popov Z. I. Stability and Electronic Properties of PtPd Nanoparticles via MD and DFT Calculations //The Journal of Physical Chemistry C. – 2018. – V. 122. – №. 31. – P. 18070-18076.
  6. Baidyshev V. S., Chepkasov I. V., Artemova N. D. Study of thermal stability of disordered alloy AgxCu1-x nanoparticles by molecular dynamic simulations //Journal of Physics: Conference Series. 2018. – V. 1015. – №. 3. – P. 032021.
  7. Chepkasov I. V., Baidyshev V. S., Baev A. Y. Structural properties of CuAu nanoparticles with different type. Molecular dynamic simulations //Journal of Physics: Conference Series. 2018. – V. 1015. – №. 3. – P. 032022.
  8. Chepkasov I. V., Baidyshev V. S., Tsura V. A. Molecular dynamic simulation of melting copper-silicon nanoparticles //Journal of Physics: Conference Series. 2018. – V. 1015. – №. 3. – P. 032023.
  9. Chepkasov I. V., GafnerYu.Ya., Visotin M.A., Redel L.V. Melting of PdPt nanoparticles of different types // Physics of the Solid State. – 2017. – V.59. – № 10 – P. 2076-2081.
  10. Chepkasov I. V., Gafner Y. Y., Gafner S. L. Synthesis of Cu nanoparticles by condensation from the gas phase //Phase Transitions. – 2017. – V. 90. – №. 6. – P. 590-597.
  11. Kurbanova E. D., Polukhin V. A., Chepkasov I. V. Thermostability of interface structure metal on graphene and silicene //Letters on materials. – 2016. – V. 6. – №. 2. – P. 109-112.
  12. Chepkasov I. V., Gafner Y. Y., Gafner S. L., Bardakhanov S. P. Condensation of Cu nanoparticles from the gas phase //The Physics of Metals and Metallography. – 2016. – V. 117. – №. 10. – P. 1003-1012.
  13. Chepkasov I. V., Gafner Y. Y., Gafner S. L. Changing of the shape and structure of Cu nanoclusters generated from a gas phase: MD simulations //Journal of Aerosol Science. – 2016. – V. 91. – P. 33-42.
  14. Chepkasov I. V., Gafner Y. Y., Gafner S. L., Bardakhanov S. P. The general mechanisms of Cu cluster formation in the processes of condensation from the gas phase //Bulletin of Materials Science. – 2015. – V. 38. – №. 3. – P. 701-706.
  15. Chepkasov I. V., Popov Z. I. Analysis of thermal effects on copper nanoparticles synthesized from the gas phase //IOP Conference Series: Materials Science and Engineering. – IOP Publishing, 2015. – V. 81. – №. 1. – P. 012033.
  16. Chepkasov I. V., Redel L. V. Calculations of the heat capacity of Cu clusters synthesized by condensation from the gas phase //IOP Conference Series: Materials Science and Engineering. – IOP Publishing. – 2015. – V. 81. – №. 1. – P. 012014.
  17. Chepkasov I. V., Gafner Yu.Ya., Gafner S.L. Role of the Clusters’ Boundaries in the Calculations of the Heat Capacity of Cu Clusters Synthesized from the Gas Environment //Quantum Matter. – 2014. – V. 3. – №. 1. – P. 78-83.
  18. Chepkasov I. V., Ya., Kurbanova E.D., Polukhin V.A. Study of the effect of ultrafast heating on the structure and shape of the gas phase synthesized Cu nanoparticless // Letters on materials. – 2014. – V. 4. – №. 4. – P. 249-252.
  19. Polukhin V. A., Gafner Y. Y., Chepkasov I. V., Kurbanova E. D. Comparative analysis of the thermosize effects of transition-metal clusters that are free or deposited onto graphene. Molecular dynamics simulation //Russian Metallurgy (Metally). – 2014. – V. 2014. – №. 2. – P. 112-125.
  20. Chepkasov I.V., Gafner Yu.Ya., Gafner S.L. Analysis of the impact of thermal effects on the structural evolution of nanoclusters Cu and Ni // Russian Physics Journal. -2011. – V. 54. – № 1/3. – P. 318 – 324.
  21. Gafner Y. Y., Gafner S. L., Chepkasov I. V. The effect of thermal treatment on the organization of copper and nickel nanoclusters synthesized from the gas phase //Journal of Experimental and Theoretical Physics. – 2010. – V. 111. – №. 4. – P. 608-618.

2013 – Ph.D. in condensed matter physics (Altai State Technical University)

2010 –  Basic classical education, Physics

Past Projects:

1. German Academic Exchange Service- DAAD program “Mikhail Lomonosov” [2018-2019]: «Atomistic simulations of impacts of high-energy ions on two-dimensional transition metal dichalcogenides within the framework of a two-temperature model», Principal Investigator. (Germany)

2. Program of Foundation for promoting the development of small enterprises in scientific and technical sphere, UMNIK program [2017-2018]: «Development of a software package for optimization of synthesis parameters for nanopowders of metals and alloys», Principal Investigator. (Russia)

3. Grant of Russian Foundation for Basic Research [2017-2018], #17-42-190308_r: «Complex experimental and theoretical investigation of iron and manganese silicides epitaxial thin films », Principal Investigator.  (Russia) 

4. Grant of Russian Foundation for Basic Research [2016-2017], #16-32-000125-mol_a: «Investigation of synthesis mechanisms and thermal properties of homogeneous and heterogenous bicomponent nanoparticles», Principal Investigator. (Russia)

5. Grant of Russian Foundation for Basic Research [2012],  #12-02-90804-mol_rf_nr: «The thermal stability of ensembles of nanoclusters Ir and RuonSiO2 substrate and grapheme», Principal Investigator. (Russia)