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date of birth: August 27, 1985, Norilsk

Russian nationality

Citation index 713; H-Index: 13

 

Education:

  • 2007 - Specialty in Chemistry * - Krasnoyarsk State University, Krasnoyarsk, Russia

  • 2010 - PhD of Physical and Mathematical Sciences ** - Institute of Physics named after L.V. Kirensky SB RAS, Krasnoyarsk, Russia

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* Quantum-chemical study of Ca2 + -regulated photoprotein obelin

** Study of bioluminescence processes of Ca2 + -regulated photoprotein obelin

Liubov Yurievna Antipina

Google scholar

WOS Research ID:  A-1800-2014

Scopus Author ID: 564222335000

ORCID: 0000-0003-1176-317X

Research interests : Theoretical chemistry; first principles quantum chemical calculations; semi-empirical and empirical calculation methods; modeling of processes occurring in nanostructures (nanotubes, graphene, graphane, fullerenes, etc.), drug delivery, water treatment

Project management:

  • 2021-2023 - Russian Science Foundation 21-79-10411 "Comprehensive study of adsorbents based on nanoparticles of hexagonal boron nitride for purification of wastewater from drugs"

  • 2010-2011 - FTP staff, contract No. P213 "Study of the molecular mechanism of photoprotein bioluminescence using quantum-chemical calculation methods"

 

Participation in projects:

  • 2010-2012 - FTP staff Contract No. P333 "Investigation of the physical and chemical properties of biological systems by the methods of quantum chemistry"

  • 2012-2013 - RFBR 12-02-31261 "Investigation of the features of the electronic, elastic and mechanical properties of materials based on nanosized diamond clusters"

  • 2012-2013 - FTP 14.B37.21.1645 "Investigation of ways to create and properties of a single-crystal diamond film of nanometer thickness"

  • 2012-2013 - Federal Target Program 16.513.12.3025 "Development of methods for creating acoustoelectronic devices and sensor technology based on superhard synthetic single crystals and piezoelectric layered structures based on them"

  • 2014-2016 - Russian Science Foundation 14-12-01217 "Modeling the structure and properties of new multilayer nanomaterials based on transition metal dichalcogenides and BN-graphene layers"

  • 2014-2016 - RNF 14-13-00139 "Theoretical study of spin-polarized 2D nanocomposites of graphene and h-BN with silicides and manganites of transition and rare-earth elements as elements of spintronics and spincalorithronics"

  • 2015-2020 - Infrastructure project "Theoretical materials science of nanostructures" Program for increasing the competitiveness of NUST "MISIS" among the world's leading research and educational centers

  • 2017-2019 - Russian Science Foundation 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"

  • 2017-2019 - RFBR 17-02-01095 "New graphene-like bilayer structures as elements of electronics and optics: modeling geometry and physical properties"

  • 2018-2020 - RFBR 18-32-20190 "Investigation of the connection of Heusler alloys and a number of low-dimensional materials for use in spintronics"

  • 2020-2023 - RNF 20-19-00120 "Development of new bactericidal surfaces based on the study of the main mechanisms for suppressing pathogens of bacterial and fungal infections"

  • 2021-2022 - RFBR 20-52-76018 ERA_t "Ion-implanted two-dimensional materials for single-center catalysis"

  • 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:

Lecturer :

"Chemistry of a Solid State" (2015-2016, MIPT)

"Introduction to Materials Science" (2015-2016, MIPT)

"Kinetics and thermodynamics of phase transitions and phase transformations in solids" (2015-2018. Base Department of MIPT)

Seminar teacher :

"General and Inorganic Chemistry" (2007-2011, Siberian Federal University)

Work experience:

  • 01.2020 - up to now - Researcher - Institute of Biochemical Physics named after V.I. N.M. Kirensky RAS

  • 05.2015 - present - Senior Researcher - National Research Technological University "MISiS", Research Laboratory "Inorganic Nanomaterials", Moscow, Russia

  • 05.2011 - 01.2020 - Researcher - Technological Institute for Superhard and New Carbon Materials, Troitsk, Moscow, Russia

  • 01.2015 - 03.2015 - Visiting Scholar - Nagoya University, Nagoya, Japan ( supervisor Prof. Stefan Irle)

  • 12.2013 - 02.2014 - Visiting Scholar - Michigan State University, East Lansing, Michigan, USA ( led by Prof. David Tomanek)

  • 08.2013 - 09.2013 - Visiting Scholar within the framework of the DAAD Technische Universitaet Dresden scholarship project, Dresden, Germany, (supervisor Prof. Gotthard Seifert)

  • 04.2008 - 03.2011 - Engineer - Chemical and Metallurgical Faculty, Institute of Non-Ferrous Metals and Materials Science, Siberian Federal University, Krasnoyarsk, Russia

  • 01.2011 - 12.2011 - Senior Researcher - Siberian State Aerospace University, Krasnoyarsk, Russia

  • 09.2009 - 12.2010 - Researcher - Institute of Physics. L.V. Kirensky SB RAS, Krasnoyarsk, Russia

 

Social activity:

  • 13.12.2013 - Secretary - International Seminar "New Approaches in Material Design"

  • 2014-2015 - Secretary - Moscow Seminar "Modern Theoretical and Experimental Materials Science"

  • 29.05.2018-01.06.2018 - Secretary - 11th International Conference "Carbon: Fundamental Problems of Science, Materials Science, Technology"

  • 06 - 09.12.2021 - Secretary - International Conference "New Carbon Nanomaterials: Ultrathin Diamond Films"

Invited editor:

Special issue «Advances in the Application of Nanoparticles in Biomedical and Ecology Systems» in International Journal of Molecular Sciences

Publications:

  1. Konopatsky A.S., Leybo D.V., Kalinina V.V., Zilberberg I.L., Antipina L.Yu., Sorokin P.B., Shtansky D.V. Synergistic catalytic effect of Ag and MgO nanoparticles supported on defective BN surface in CO oxidation reaction // Materials 2023, V. 16, № 2, P. 470

  2. Antipina L.Yu., Varlamova L.A., Sorokin P.B. The temperature dependence of the hexagonal boron nitride oxidation resistance, insights from first−principle computations // Nanomaterials 2023, V. 13, № 6, P. 1041

  3. Antipina L.Y., Kotyakova K.Y., Sorokin P.B. Theoretical Analysis of Riboflavin Adsorption on Hexagonal Boron Nitride for Drug Delivery Applications: Unveiling the Influence of Point Defects International // Int. J. Mol. Sci. 2023, V. 24, № 14, P. 11648

  4. 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

  5. Ovsyannikov D., Zhukov V., Gordeeva T., Antipina L., Sorokin P., Kulnitskiy B., Popov M., Blank V. Intermediate carbon phase. New experimental data and atomic model // Diam. Rel. Mat. 2022, V. 123, P. 108825

  6. 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

  7. Antipina L.Yu., Kotyakova K.Yu., Tregubenko M.V., Shtansky D.V. Experimental and theoretical study of sorption capacity of hexagonal boron nitride nanoparticles: implication for wastewater purification from antibiotics // Nanomaterials 2022, V. 12, №18, P. 3157

  8. Permyakova E.S., Tregubenko M.V., Antipina L.Yu., Kovalskii A.M., Matveev A.T., Konopatsky A.S., Manakhov A.M., Slukin P.V., Ignatov S.G., Shtansky D.V. Antibacterial, UV-Protective, hydrophobic, washable, and heat-resistant BN-based nanoparticle-coated textile fabrics: experimental and theoretical Insight // ACS Appl. Bio Mat. 2022 V. 5, № 12, P. 5595–5607

  9. Kotyakova K.Yu., Antipina L.Yu., Sorokin P.B., Shtansky D.V. Efficient and reusable sorbents based on nanostructured BN coatings for water treatment from antibiotics // Int. J. Mol.Sci. 2022 V. 23, № 24, P. 16097

  10. Kalachikova P.M., Goldt A.E., Khabushev E.M., Eremin T.V., Zatsepin T.S., Obraztsova E.D., Larionov K.V., Antipina L.Yu., Sorokin P.B., Nasibulin A.G. Single-step extraction of small-diameter single-walled carbon nanotubes in the presence of riboflavin // Beilstein J. Nanotechnol. 2022, V. 13, P. 1564–1571

  11. Gudz K.Y., Antipina L.Yu., Permyakova E.S., Kovalskii A.M., Konopatsky A.S., Filippovich S.Yu., Dyatlov I.A., Slukin P.V., Ignatov S.G., Shtansky D.V. Ag-Doped and Antibiotic-Loaded Hexagonal Boron Nitride Nanoparticles as Promising Carriers to Fight Different Pathogens // ACS Appl. Mater. Interfaces 2021, 13, 20, 23452–23468

  12. Liu X., Liu S., Antipina L.Yu., Zhu Y., Ning J., Liu J., Yue C., Joshy A., Zhu Y., Sun J., Sanchez A.M., Sorokin P.B., Mao Z., Xiong Q., Wei J., High yield production of ultrathin fibroid semiconducting nanowire of Ta2Pd3Se8 // Nano Research 2020, V. 13, № 6, P. 1627-1635

  13. Chernozatonskii, L. A.; Antipina, L. Yu.; Kvashnin, D. G. Transition Mechanism from Semimetallic to Semiconductor Behavior in a Graphene Film at the Formation of a Multiply Connected Structure // JETP LETTERS, 2020, 111(4), 235-238

  14. Permyakova E.S., Antipina L.Yu., Kiryukhantsev-Korneev P.V., Kovalskii A.M., Polčak J., Manakhov A., Gudz K.Yu, Sorokin P.B., Shtansky D.V. Plasma surface polymerized and biomarker conjugated boron nitride nanoparticles for cancer-specific therapy: experimental and theoretical study // Nanomaterials 2019, V.9, №12, P.1658

  15. Zhou M., Weng Q., Popov Z.I., Yang Y., Antipina L.Yu., Sorokin P.B., Wang X., Bando Y., Golberg D. Construction of Polarized Carbon–Nickel Catalytic Surfaces for Potent, Durable, and Economic Hydrogen Evolution Reactions // ACS Nano, 2018. V.12, №5, P. 4148-4155

  16. Permyakova E.S., Antipina L.Yu., Kovalskii A.M., Zhitnyak I.Yu., Gudz K.Yu., Polčak J.,  Sorokin P.B., Manakhov A.M., Shtansky D.V. Experimental and Theoretical Study of Doxorubicin Physicochemical Interaction with BN(O) Drug Delivery Nanocarriers // J. Phys. Chem. C 2018, V. 122(46), P. 26409-26418

  17. Permyakova E.S., Sukhorukova I.V., Antipina L.Yu., Konopatsky A.S., Kovalskii A.M., Matveev A.T., Lebedev O.I., Golberg D.V., Manakhov A.M., Shtansky D.V. Synthesis and Characterization of Folate Conjugated Boron Nitride Nanocarriers for Targeted Drug Delivery // J. Phys. Chem. C 2017, V. 121(50), P. 28096-28105

  18. Entani S., Mizuguchi M., Watanabe H., Antipina L.Yu., Sorokin P.B., Avramov P.V., Naramoto H., Sakai S. Fluorination control of single-layer graphene by high energy ion irradiation through LiF overlayer // RSC Adv., 2016. V. 6, P. 68525-68529

  19. Antipina L.Yu.,   Kvashnin A.G., Sorokin P.B., Chernozatonskii L.A. The possible formation of magnetic FeS2 phase in two-dimensional MoS2 matrix // Phys. Chem. Chem. Phys., 2016. V. 18, P. 26956-26959

  20. Liu X., Liu J., Antipina L.Yu., Hu J., Yue C., Sanchez A.M., Sorokin P.B., Mao Z., Wei J. Direct fabrication of functional ultrathin single-crystal nanowires from quasi-one-dimensional Van der Waals crystals // Nano Lett., 2016. V. 16, P. 6188-6195

  21. Antipina L.Yu., Sorokin P.B., Converting chemically functionalized few-layer graphene to diamond films: A computational study // J. Phys. Chem. C 2015, V. 119, №5, P. 2828–2836

  22. Kvashnin D.G., Vancsó P., Antipina L.Yu., Márk G.I., Biró L.P., Sorokin P.B. and Chernozatonskii L.A. Bi-layered graphene nanostructures with periodically arranged hexagonal holes // Nano Research 2015, V. 8, № 4, P. 1250-1258

  23. Entani S, Antipina L.Yu., Avramov P.V., Ohtomo M., Matsumoto Y., Hirao N., Shimoyama I., Naramoto H., Baba Y., Sorokin P.B., Sakai S. Graphene/Sapphire Heterostructure: Contracted Interlayer Distance and Hole-Doping through Electrostatic Interactions // Nano Research 2015, V. 8, № 5, P. 1535-1545

  24. Hu J., Liu X., Yue C.L., Liu J.Y., Zhu H.W., He J.B., Wei J., Mao Z.Q., Antipina L.Yu., Popov Z.I., Sorokin P.B., Liu T.J., Adams P.W., Radmanesh S., Spinu L., Ji H. and D. Natelson. Enhanced electron coherence in atomically thin Nb3SiTe6 // Nature Physics 2015, V. 11, № 6, P. 471-476

  25. Bollman T.R.J., Antipina L.Yu., Reichling M., Sorokin P.B. Hole-doping of mechanically exfoliated graphene by confined hydration layers // Nano Research 2015, V.8, №9, P. 3020-3026

  26. Kvashnin D.G., Antipina L.Yu., Sorokin P.B., Tenne R., Golberg D. Theoretical Aspects of WS2 Nanotube Chemical Unzipping // Nanoscale 2014. V.6, P. 8400-8404

  27. L.Yu. Antipina, P.V. Avramov, S. Sakai, H. Naramoto, M. Ohtomo, S. Entani, Y. Matsumoto, P.B. Sorokin. The high hydrogen adsorption rate material based on graphane decorated with alkali metals // Phys. Rev. B, 86 (8) – 2012 – P. 085435

  28. L. Yu. Antipina, F. N. Tomilin, E. S. Vysotskii, S. G. Ovchinnikov. A quantum chemical study of the formation of 2-hydroperoxy-coelenterazine in the Ca2+-regulated photoprotein obelin // Journal of Structural Chemistry, 2011, vol. 52, is. 5, pp. 870–875

  29. P.B. Sorokin, A.K. Singh, H. Lee, L. Yu. Antipina and B.I. Yakobson. Calcium-Decorated Carbyne Networks as Hydrogen Storage Media. // Nano Lett., 11 (7). - 2011 - PP: 2660–2665

  30. S.G. Ovchinnikov, L.Yu. Antipina, F.N. Tomilin, A.A. Kuzubov. Effect of Electron Correlation on the Structure of Photoprotein Substrates. // JETP Letter, 2010, V. 91, № 9, P. 490 – 493

  31. F.N. Tomilin, L.Yu. Antipina, E.S. Vysotski, S.G. Ovchinnikov, I.I. Gitelzon. The mechanism of formation of emitter by fluorescence of calcium discharged obelin // Biophysic, 2009, vol. 54, is. 4, pp. 630-637 (in Russian)

  32. F.N. Tomilin, L.Yu. Antipina, E.S. Vysotski, S.G. Ovchinnikov, I.I. Gitelzon. Fluorescence of Calcium-Discharged Obelin: The Structure and Molecular Mechanism of Emitter Formation. // Doklady Biochemistry and Biophysics, 2008, Vol. 422, pp. 279–284

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