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ErokhinSV.jpg

date of birth: August 19, 1993, Russia

Nationality: Russian

Citation Index: 280, H-index: 9 (01.01.2024)

 

Education:

  • 2014 - Bachelor of Physics * - Moscow Institute of Physics and Technology (State University), Moscow, Russia

  • 2016 - Master of Physics ** - Moscow Institute of Physics and Technology (State University), Moscow, Russia

  • 2021 - PhD of Physical and Mathematical Sciences *** - Moscow Institute of Physics and Technology (State University), Moscow, Russia

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* Simulation of the mechanical properties of nanopolycrystalline diamond

** Study of the mechanical properties and features of the formation of nanostructures based on diamond

*** Theoretical description of rearrangement mechanisms of the atomic structure of some two-dimensional crystals using graphene, GaN, and AlN

Sergey Vladimirovich Erohin

Google scholar

WOS Research ID:  A-3253-2014

Scopus Author ID: 57003750600

ORCID: 0000-0002-7464-8454

Research interests: Numerical quantum chemistry, ab-initio calculations, carbon (diamond nanopoly crystals, nanotubes, graphene), machine learning 

Project management:

2022-2024 - RSF 22-72-00138 "Investigation of phase transitions in carbon materials at the atomic level using modern modelling techniques"

Participation in projects:

2015-2017 - Infrastructure project "Theoretical materials science of nanostructures". Competitiveness Enhancement Program of NUST MISIS among the world's leading research and educational centers (No. К2-2015-033)

2016-2018 - RFBR 16-32-60138-mol_a_dk. Features of the properties of new two-dimensional materials

2017-2018 - Infrastructure project "Theoretical materials science of nanostructures". Competitiveness Enhancement Program of NUST MISIS among the world's leading research and educational centers (No. К2-2017-001)

2017-2020 - RSF 17-72-20223 Investigation of new classes of nanomaterials with an unusual structure: films of monoatomic thickness based on d-metals and quasi-one-dimensional van der Waals nanowires and nanoribbons of composition M2X3 and M2X3Y8

2019-2020 - RFBR 18-32-20190 Investigation of the connection of Heusler alloys and a number of low-dimensional materials for use in spintronics

2019-2020 - Infrastructure project "Search and prediction of new low-dimensional structures and study of their physical and chemical properties." Competitiveness Enhancement Program of NUST MISIS among the world's leading research and educational centers (No. К2-2019-016)

2019-2020 - MD-1046.2019.2 Investigation of the formation of new quasi-two-dimensional nanostructures during a chemically induced phase transition, Grant of the President of the Russian Federation for state support of young Russian scientists and for state support of leading scientific schools of the Russian Federation

2020-2022 - RFBR 20-32-90049 Theoretical study of spin effects in new magnetic heterocompounds

2021-2022 - RFBR 20-52-76018 ERA_t (international project ERA.Net RUS plus). Ion-Implanted 2D Materials for Single-site Catalysis

2021-2023 - RSF 21-12-00399 Chemically-induced phase transition in low-dimensional structures

2019-2022 - RSF 19-72-10046. Experimental and numerical study of nanostructured materials based on graphene and its compounds (supervisor: N.A. Nebogatikova)

2022-2024 - Grant for the establishment of a laboratory within the framework of implementation of the strategic academic leadership program "Priority-2030" and activities aimed at conducting breakthrough research and creating knowledge-intensive products and technologies, building human resources capacity of the research and development sector (№ K6-2022-041)

Teaching activities:
Seminar teacher:
"Quantum-chemical modeling of the structure and properties of solids" (MIPT)

"Computer and Information Technologies in Science and Production" (2022-up to now, MISIS)

Co-guidance by students:

Undergraduate:
S.V. Bondarenko (2017), E.V. Sukhanova (2018), V.A. Prenas (2021), M.A. Builova (2024)

Master's degree:
S.V. Bondarenko (2019), V.V. Zhukov (2021)


Work experience:
2014 - up to now - Engineer - FGBNU Technological Institute for Superhard and New Carbon Materials, Moscow Region, Troitsk, Russia

2017 - up to now - Scientific Project Engineer - NUST MISIS, Moscow, Russia

Guest researcher:

2016 - Rice University, Department of Materials Science & NanoEngineering (group of Prof. B. Jacobson)

2018 - Rice University, Department of Materials Science & NanoEngineering (Prof. B. Jacobson's group)

 
Professional development:
15/06 / 2016-20 / 06/2016 - deMon-2k and deMonNano tutorial, CNRS-University of Paris-Sud

05/07/2015 - 11/07/2015 - European Summer School 2015, "Light! An introduction to modern Physics of Light", Université de Strasbourg

Publications:

  1. Emelin, E.V.; Cho, H.D.; Korepanov, V.I.; Varlamova, L.A.; Klimchuk, D.O.; Erohin, S.V.; Larionov, K.V.; Kim, D.Y.; Sorokin, P.B.; Panin, G.N. Resistive Switching in Bigraphene/Diamane Nanostructures Formed on a La3Ga5SiO14 Substrate Using Electron Beam Irradiation // Nanomaterials 2023, 13, 2978

  2. Erohin S.V., Churkin V.D., Vnukova N.G., Visotin M.A., Kovaleva E.A., Zhukov V.V., Antipina L.Yu., Tomashevich Ye.V., Mikhlin Yu.L., Popova M.Yu., Churilov G.N., Sorokin P.B., Fedorov A.S. Insights into fullerene polymerization under the high pressure: The role of endohedral Sc dimer // Carbon 2022, V. 189, P. 37-45

  3. Antonova I.V., Nebogatikova N.A., Erohin S.V., Prenas V.A., Smovzh D.V., Suprun E.A., Volodin V.A., Olejniczak A., Sorokin P.B. Nanostructuring of CVD graphene by high-energy heavy ions // Diam. Rel. Mat. 2022 V. 123, P. 108880

  4. Erohin S., Sorokin P. Edges in bilayered h-BN. Insights into atomic structure // Nanoscale 2022, V. 14, P.14155

  5. Zhukov V.V., Erohin S.V., Churkin V.D., Vnukova N.G., Antipina L.Yu., Elesina V.I., Visotin M.A., Tomashevich Ye.V., Popov M.Yu., Churilov G.N., Sorokin P.B., Fedorov A.S. Feature of the endohedral metallofullerene Y@C82 and Gd@C82 polymerization under high pressure // J. Phys. Chem. C 2022, V. 126, № 40, P. 17366

  6. Varlamova L.A., Erohin S.V., Sorokin P.B. The role of structural defects in the growth of two-dimensional diamond from graphene // Nanomaterials 2022. V. 12, №22, P. 3983

  7. Varlamova L.A., Erohin S.V., Larionov K.V., Sorokin P.B. Diamane oxide. Two-dimensional film with mixed coverage and variety of electronic properties // J. Phys. Chem. Lett. 2022 V. 13, P. 11383–11390

  8. Emelin E.V., Cho H.D., Korepanov V.I., Varlamova L.A., Erohin S.V., Kim D.Y., Sorokin P.B., Panin G.N. Formation of diamane nanostructures in bilayer graphene on langasite under irradiation with a focused electron beam // Nanomaterials 2022 V. 12, № 24, P. 4408

  9. Tang D.M., Erohin S.V., Kvashnin D.G., Demin V.A., Cretu O., Jiang S., Zhang L., Hou P.X., Chen G., Futaba D.N., Zheng Y., Xiang R., Zhou X., Hsia F.C., Kawamoto N., Mitome M., Nemoto Y., Uesugi F., Takeguchi M., Maruyama S., Cheng H.M., Bando Y., Liu C., Sorokin P.B., Golberg D. Semiconductor nanochannels in metallic carbon nanotubes by thermomechanical chirality alteration // Science 2021, V.374, № 6575, P. 1616–1620

  10. Liu X., Yue C., Erohin S.V., Zhu Y., Joshy A., Liu J., Sanchez A.M., Graf D., Sorokin P.B., Mao Z., Hu J., Wei J. Quantum transport of the 2D surface state in a nonsymmorphic semimetal // Nano Lett., 2021, V. 21, № 11, P. 4887-4893

  11. Chepkasov I.V., Erohin S.V., Sorokin P.B. The features of phase stability of GaN and AlN films at nanolevel // Nanomaterials, 2021, V. 11, № 1, P. 8

  12. Erohin S.V., Chernozatonskii L.A., Sorokin P.B., On the edge of bilayered graphene: unexpected atomic geometry and specific electronic properties // J. Phys. Chem. Lett., 2020, V. 11, №15, P. 5871–5876

  13. Erohin S.V., Ruan Q., Sorokin P.B., Yakobson B.I. Nano-thermodynamics of chemically induced graphene-diamond transformation // Small, 2020, V. 16, № 47, P. 2004782

  14. Blank V.D., Churkin V.D., Kulnitskiy B.A., Perezhogin I.A., Kirichenko A.N., Erohin S.V., Sorokin P.B., Popov M.Y. Pressure-Induced Transformation of Graphite and Diamond to Onions // Crystals 2018. V.8, P. 68

  15. Blank V.D., Churkin V.D., Kulnitskiy B.A., Perezhogin I.A., Kirichenko A.N., Denisov V.N., Erohin S.V., Sorokin P.B., Popov M.Y. Phase diagram of carbon and the factors limiting the quantity and size of natural diamonds // Nanotechnology, 2018. V.29, №11, P.115603

  16. Sakai S., Erohin S.V., Popov Z.I., Haku S., Watanabe T., Yamada Y., Entani S., Li S., Avramov P.V., Naramoto H., Ando K., Sorokin P.B., Yamauchi Y. Dirac cone spin polarization of graphene by magnetic insulator proximity effect probed with outermost surface spin spectroscopy // Advanced Functional Materials, 2018. V. 28, P. 1800462

  17. Nebogatikova N.A., Antonova I.V., Erohin S.V., Kvashnin D.G., Olejniczak A., Volodin V.A., Skuratov A.V., Krasheninnikov A.V., Sorokin P.B., Chernozatonskii L.A. Nanostructuring few-layer graphene films by swift heavy ions for electronic application: tuning of electronic and transport properties // Nanoscale, 2018. V.10, P.14499-14509

  18. Chernozatonskii L.A., Demin V.A., Erohin S.V., Kvashnin D.G., Krasheninnikov A.V., Sorokin P.B. Bilayer graphenes with antidots: structures, properties and applications // Journal of Physics: Conference Series, 2018. V. 1092, P. 012018

  19. Telichko A.V., Erohin S.V., Kvashnin G.M., Sorokin P.B., Sorokin B.P., Blank V.D. Diamond’s third order elastic constants: ab initio calculations and experimental investigation // J. Mater. Sci., 2016. V. 52, P.3447

  20. Erohin S.V., Sorokin P.B. Elastic properties of nanopolycrystalline diamond: The nature of ultrahigh stiffness // APL 2015, V.107, P. 121904

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