Head of Scientific Group, Doctor of Science Olga E. Glukhova

Olga E. Glukhova

Degree: Doctor of Physical and Mathematical Sciences (specialty 05.27.01 - solid-state electronics, radio-electronic components, micro-and nanoelectronics, devices based on quantum effects and 01.04.04 - Physical Electronics).

Academic rank: Professor on the specialty 05.27.01 - solid-state electronics, radio-electronic components, micro-and nanoelectronics, devices based on quantum effects.

Positions: Head of the Chair of Radiotechnics and Electrodynamics at Institute of Physics of Saratov State University

Head of department of mathematical modeling the Educational scientific institute of nanostructures and biosystems of Saratov State University

Scientific supervisor of department of computational modeling of the Educational scientific institute of nanostructures and biosystems of Saratov State University

Member of IEEE (Institute of Electrical and Electronics Engineers, Inc.).

Scientific interests

  • Nanoelectronics;
  • Molecular electronics;
  • Mechanics of nanostructures;
  • Molecular modeling of nanostructures and biosystems;
  • Quantum chemistry and molecular dynamics;
  • Carbon nanostructures (fullerenes, nanotubes, graphene, graphane);
  • Structural chemistry and mechanics
  • Condensed Matter Physics
  • Materials science – Biomaterials;
  • Biophysics;
  • Biochemistry Molecular Biology.

Education

  • 2009 – Diploma of Doctor in Physical and Mathematical Sciences. Theme: "Theoretical study of atomic structure, physical properties of carbon nanoclusters and some application those as a nanodevices". Specialties: 05.27.01 "Solid-state electronics, radio-electronic components, micro-and nanoelectronics, devices based on quantum effects" and 01.04.04 - "Physical Electronics". Saratov State University named after N.G. Chernyshevsky.
  • 1997 – Diploma of Candidate in Physical and Mathematical Sciences. Theme: "Auto and thermal electron emission of matrix cathodes and strands of direct heating (mathematical modeling)". Specialty: 05.27.02 "Vacuum and plasma electronics." Saratov State University named after N.G. Chernyshevsky.
  • 1992 - Diploma of Higher Education in the specialty of "Physics". Saratov State University named after N.G. Chernyshevsky.

Research Projetcs

  • Grant of RFBR №19-32-90160 "Modified layered graphene composites to improve the physical and technical characteristics of radio electronic components and energy storage devices". Period: 2019-2021.
  • Grant of RFBR №15-29-01025-ofi-m "Cross-platform software package for solving problems of bioelectronics and biosensorics based on carbon nanostructures"
  • Grant of Russian Fund for Basic Research (RFBR) №15-07-06307 “A new application of hybrid carbon nanostructures to create nanodetector of giga and terahertz waves”. Period: 2015-2017.
  • Grant of Ministry of Education and Science of the Russian Federation within the framework of the project of the state assignment in the field of scientific activity No 3.1155.2014/K “Research and modeling of the properties of hyperbolic metamaterials based on graphene and graphene-dielectric siliceous layers”. Period: 2014-2016.
  • Grant of Russian Scientific Fund (RSF) № 14-15-00128 "Gate" of blood-brain barrier: mechanisms of regulation, their dependence on the state of organism and age, and correction methods using supramolecular transport systems. Period: 2014-2016.
  • Grant of RSF №14-19-01308 "The functional molecular systems with variable transport properties based on organic molecules and one-dimensional conductors" (2014-2016).
  • Grant of the Ministry of Education and Science of the Russian Federation, the agreement 14.575.21.0089. Theme of the project "Investigation of the relationship between structure and properties of experimental samples of biocompatible scaffolds 3D nanobiostructures. A study of colonization of fibroblasts and osteoblasts on the 3D-nanobiostructures"(2015-2017.)
  • Government Council on Grants for state support of research conducted under the supervision of leading scientists at Russian institutions of higher learning, research institutions of state academies of sciences and state research centres of the Russian Federation. Theme "Remotely controlled nanostructured systems for targeted delivery and diagnostics." Application Number 2013-220-04-014. Period: 2014-2016;
  • Grant of RFBR № 12-02-00807 “Experimental and theoretical study of the physical foundations of the field emission of electrons from an abnormally high current density of carbon nanostructured films”. Period: 2012-2014;
  • Grant RFBR №13-08-00986 “Study of the Electrodynamic Characteristics of the THz Range TWTs and BWTs and Development of Technologies of their Fabrication”. Period: 2013-2015;
  • Grant of RFBR №07-02- 00852 -a “Experimental and theoretical investigation of growth conditions of the complicated types of carbon nanotubes and nanoclusters for nanoelectronic devices”. Period: 2007-2009;
  • DAAD Scholarship within the Program “Research fellowships for scientists and university professors: 1-3 months”. Year 2012/2013. Topic: “Composite materials based on ceramics and carbon nanotubes”.
  • Grant of RFBR №98- 02- 17970 -a “A study of the physical foundations of vacuum microelectronics in the field of electrons emission into the vacuum from nanocluster carbon structures and their interaction with electromagnetic fields”. Period: 1998-2000;
  • Program of Basic Research of the Presidium of RAS: P-03 “Condensed Matter Quantum Physics”: Topic: “The investigation of mechanisms for influence of orientation, deformation, chemical modification of carbon nanotubes and traditional complex forms on the optical and electro polarized properties of liquids that contain them”. Period: 2007-2010.

Scientific foreign training

  • 2015 - AIMEN Technology Centre (Porrino, Spain) on the problem "Application of laser methods for the modification of carbon nanostructures and their derivatives}.
  • 2014 - Institute of High Performance Computing (Singapore, Singapore) on the topic “Development of methods of manipulation of behavior and properties of the molecules on the graphene”.
  • 2012 - Institute of High Performance Computing (Singapore, Singapore) on the topic “Molecular modeling of nanostructures”.
  • 2012 - Technische Universitaet Hamburg-Harburg, (Hamburg, Germany) on the topic “Composite materials based on ceramics and carbon nanotubes”.
  • 2011 - National Cheng Kung University (Tainan, Taiwan) on the topic of “Quantum methods for investigation of the electronic structure of the defective and modified graphene nanoribbons”.
  • 2011 - Aalto University (Helsinki, Finland) on the topic of “Electrodynamics of the modified graphene nanostructures and nanotubes”.
  • 2010 - International intergovernmental scientific research organisation «The Joint Institute for Nuclear Research» on the problem of "Managing the electronic properties of nanostructures".

Foreign collaboration:

  • Schmid College of Science & Technology, Chapman University (Orange, California, United States);
  • School of Materials Science & Engineering, Nanyang Technological University (Singapore, Singapore);
  • Department Engineering Mechanics, Institute of High Performance Computing (Singapore, Singapore);
  • National Center for Theoretical Sciences, Department of Physics, National Cheng Kung University (Tainan, Taiwan);
  • Department of Radio Science and Engineering, Aalto University (Helsinki, Finland);
  • Institute of Advanced Ceramics, Technische Universitaet Hamburg-Harburg (Hamburg, Germany);
  • University of Umeå, Department of Physics (Umeå, Sweden).

List of publications in high rated international journals indexed by Web of Science:

  • Maksim A. Solomatin, Marko Radovic, Alexander A. Petrunin, Demid A. Kirilenko, Alexey S. Varezhnikov, Georges Dubourg, Mikhail Yu. Vasilkov, Alexey M. Bainyashev, Andrea Nesterovic, Ilia Kiselev, Konstantin B. Kostin, Yuri P. Martynyuk, Alexander V. Gorokhovsky, Sergey S. Volchkov, Dmitry A. Zimnyakov, Nikolay M. Ushakov, Vladimir G. Goffman, Maxim K. Rabchinskii, Olga E. Glukhova, Victor V. Sysoev. Towards electronic smelling of ketones and alcohols at sub-and low ppms by pinky-sized on-chip sensor array with SnO2 mesoporous layer gradually engineered by near IR-laser //Chemical Engineering Journal. – 2023. – С. 145934.
  • Michael M. Slepchenkov; Pavel V. Barkov; Olga E. Glukhova. Island-Type Graphene-Nanotube Hybrid Structures for Flexible and Stretchable Electronics: In Silico Study. Micromachines 2023, 14, 671. https://doi.org/10.3390/mi14030671
  • Michael M. Slepchenkov; Pavel V. Barkov; Olga E. Glukhova. Quantum Study of the Optical Conductivity of Composite Films Formed by Bilayer Graphene and Single-Walled Carbon Nanotubes under Axial Stretching. Quantum Reports 2023, 5, 253-266. https://doi.org/10.3390/quantum5010017
  • Dmitry A. Kolosov; Olga E. Glukhova. High-Capacity Ion Batteries Based on Ti2C MXene and Borophene First Principles Calculations. Inorganics 2023, 11, 95. https://doi.org/10.3390/inorganics11030095
  • Simonenko N.P., Glukhova O.E., Plugin I.A., Kolosov D.A., Nagornov I.A., Simonenko T.L., Varezhnikov A.S., Simonenko E.P., Sysoev V.V., Kuznetsov N.T. The Ti0.2V1.8C MXene Ink-Prepared Chemiresistor: From Theory to Tests with Humidity versus VOCs. Chemosensors 2023, 11, 7. https://doi.org/10.3390/chemosensors11010007
  • Petrunin A.A., Glukhova O.E. Quasi-2D SnO2 Thin Films for Gas Sensors: Chemoresistive Response and Temperature Effect on Adsorption of Analytes. Materials 2023, 16, 438. https://doi.org/10.3390/ma16010438
  • Shunaev V.V., Bobenko N.G., Korusenko P.M., Egorushkin V.E., Glukhova O.E. Carboxyl Functionalization of N-MWCNTs with Stone–Wales Defects and Possibility of HIF-1α Wave-Diffusive Delivery. Int. J. Mol. Sci. 2023, 24, 1296. https://doi.org/10.3390/ijms24021296
  • Slepchenkov M.M., Kolosov D.A., Nefedov I.S., Glukhova O.E. Band Gap Opening in Borophene/GaN and Borophene/ZnO Van der Waals Heterostructures Using Axial Deformation: First-Principles Study. Materials 2022, 15, 8921. https://doi.org/10.3390/ma15248921
  • Levitsky S.G., Shunaev V.V., Glukhova O.E. A Hybrid Nanocomposite Based on the T-Shaped Carbon Nanotubes and Fullerenes as a Prospect Material for Triple-Value Memory Cells. Materials 2022, 15, 8175. https://doi.org/10.3390/ma15228175
  • Gerasimenko A.Y., Kuksin A.V., Shaman Y.P., Kitsyuk E.P., Fedorova Y.O., Murashko D.T., Shamanaev A.A., Eganova E.M., Sysa A.V., Savelyev M.S., Telyshev D.V., Pavlov A.A., Glukhova O.E. Hybrid Carbon Nanotubes–Graphene Nanostructures: Modeling, Formation, Characterization. Nanomaterials. 2022; 12(16):2812. https://doi.org/10.3390/nano12162812
  • Ilatovskii D.A., Gilshtein E.P., Glukhova O.E., Nasibulin A.G. Transparent Conducting Films Based on Carbon Nanotubes: Rational Design toward the Theoretical Limit // Advanced Science, 2022, Vol. 9, Iss. 24, 2201673. https://doi.org/10.1002/advs.202201673
  • Nefedov I.S., Davidovich M.V., Glukhova O.E., Slepchenkov M.M., Rubi J.M. Radiative heat transfer between two carbon nanotubes // Scientific Reports. 2022. Vol. 12. P. 17930. DOI: 10.1038/s41598-022-22138-8.
  • Liu H., Zhang Y., Glukhova O.E., Zhang G., Wang L., Zhao J., Gao J. Interlayer Hopping Kinetics of Vacancies in CrI3 Layers Leading to Monolayer/Bilayer Heterostructures // Advanced Materials Interfaces. 2022. Vol. 9. Iss. 21. P. 2200626. DOI:10.1002/admi.202200626.
  • Kolosov D.A., Levitsky S.G., Glukhova O.E. Adhesion and Electron Properties of Quasi-2D Mo2C, Ti2C, and V2C MXene Flakes after Van Der Waals Adsorption of Alcohol Molecules: Influence of Humidity. Lubricants. 2022; 10(7):159. https://doi.org/10.3390/lubricants10070159
  • Shunaev V.V., Glukhova O.E. Interaction of Co3O4 Nanocube with Graphene and Reduced Graphene Oxide: Adhesion and Quantum Capacitance. Lubricants. 2022; 10(5):79. https://doi.org/10.3390/lubricants10050079.
  • Shunaev, V.V., Pincak, R., Glukhova, O.E. The energetical, electronic and optical properties of the intermetallic fullerene Fe@C60 // Computational and Theoretical Chemistry. 2022. Vol. 1214. P. 113784. https://doi.org/10.1016/j.comptc.2022.113784
  • Petrunin A.A., Slepchenkov M.M., Glukhova O.E. Effect of Functionalization with Potassium Atoms on the Electronic Properties of a 3D Glass-like Nanomaterial Reinforced with Carbon Nanotubes: In Silico Study. Journal of Composites Science. 2022; 6(7):186. https://doi.org/10.3390/jcs6070186.
  • Slepchenkov M.M., Kolosov D.A., Glukhova O.E. Novel Van Der Waals Heterostructures Based on Borophene, Graphene-like GaN and ZnO for Nanoelectronics: A First Principles Study. Materials. 2022; 15(12):4084. https://doi.org/10.3390/ma15124084.
  • Gerasimenko A.Y., Kitsyuk E., Kurilova U.E., Suetina I.A., Russu L., Mezentseva M.V., Markov A., Narovlyansky A.N., Kravchenko S., Selishchev S.V., Glukhova O.E. Interfaces Based on Laser-Structured Arrays of Carbon Nanotubes with Albumin for Electrical Stimulation of Heart Cell Growth. Polymers. 2022; 14(9):1866. https://doi.org/10.3390/polym14091866.
  • M.M. Slepchenkov, D.A. Kolosov, O.E. Glukhova First-Principles Study of Electronic and Optical Properties of Tri-Layered van der Waals Heterostructures Based on Blue Phosphorus and Zinc Oxide // J. Compos. Sci. 2022. Vol. 6. P. 163. https://doi.org/10.3390/jcs6060163.
  • Glukhova O.E. Flexible Membranes for Batteries and Supercapacitor Applications. Membranes. 2022; 12(6):583. https://doi.org/10.3390/membranes12060583.
  • M.M. Slepchenkov, O.E. Glukhova Electronic properties and behavior of carbon network based on graphene and single-walled carbon nanotubes in strong electrical fields: quantum molecular dynamics study // Nanotechnology, 2022, 33, 285001. https://doi.org/10.1088/1361-6528/ac652a
  • Hanqing Wei, Heidi Zhi Jin Ting, Yongji Gong, Chaofeng Lü, Olga E. Glukhova, Haifei Zhan Torsional Properties of Bundles with Randomly Packed Carbon Nanotubes // Nanomaterials 2022, 12(5), 760. doi.org/10.3390/nano12050760.
  • M.K. Rabchinskii, V.V. Sysoev, O.E. Glukhova, M. Brzhezinskaya, D.Yu. Stolyarova, A.S. Varezhnikov, M.A. Solomatin, P.V. Barkov, D.A. Kirilenko, S.I. Pavlov, M.V. Baidakova, V.V. Shnitov, N.S. Struchkov, D.Yu. Nefedov, A.O. Antonenko, P. Cai, Z. Liu, P.N. Brunkov Guiding Graphene Derivatization for the On-Chip Multisensor Arrays: From the Synthesis to the Theoretical Background // Adv. Mater. Technol. 2022, 2101250. DOI: 10.1002/admt.202101250.
  • E.A. Korznikova, V.V. Shunaev, I.A. Shepelev, O.E. Glukhova, S.V. Dmitriev Ab initio study of the propagation of a supersonic 2-crowdion in fcc Al // Computational Materials Science. 2022. Vol. 204. P. 111125.
  • Glukhova O.E., Rabchinskii M.K., Saveliev S.D., Kirilenko D.A., Barkov P.V. Aminated Graphene Nanomesh: Theoretical and Experimental Insights into Process of Decorating, Topology and Electron Properties. Journal of Composites Science. 2022. Vol. 6, Iss. 11. P. 335. https://doi.org/10.3390/jcs6110335
  • Shunaev V.V., Glukhova O.E. The Influence of Hydrogen Passivation on Conductive Properties of Graphene Nanomesh—Prospect Material for Carbon Nanotubes Growing // C — Journal of Carbon Research. 2022. Vol. 8. Iss. 1. P. 8. https://doi.org/10.3390/c8010008
  • Solomatin M.A. Glukhova O.E., Fedorov F.S., Sommer M., Shunaev V.V., Varezhnikov A.S., Nasibulin A.G., Ushakov N.M., Sysoev V.V. “The UV effect on the chemiresistive response of ZnO nanostructures to isopropanol and benzene at PPM concentrations in mixture with dry and wet air” // Chemosensors 2021, 9, DOI:10.3390/chemosensors9070181
  • O.E. Glukhova, P.V. Barkov A new method for determining energetically favorable landing sites of carboxyl groups during functionalization of graphene nanomesh // Letters on Materials. 2021. Issue 12(4). P. 392-396.
  • Hanna Pazniak, Alexey S. Varezhnikov, Dmitry A. Kolosov, Ilya A. Plugin, Alessia Di Vito, Olga E. Glukhova, Polina M. Sheverdyaeva, Marina Spasova, Igor Kaikov, Evgeny A. Kolesnikov, Paolo Moras, Alexey M. Bainyashev, Maksim A. Solomatin, Ilia Kiselev, Ulf Wiedwald, Victor V. Sysoev "2D Molybdenum Carbide MXenes for Enhanced Selective Detection of Humidity in Air" // Adv. Mater. 2021, 2104878. DOI: 10.1002/adma.202104878
  • Michael V. Davidovich, Igor S. Nefedov, Olga E. Glukhova, Michael M. Slepchenkov "Toward the theory of resonant-tunneling triode and tetrode with CNT–graphene grids" // Journal of Applied Physics 130, 204301 (2021). doi.org/10.1063/5.0067763
  • Igor S. Nefedov, Michael V. Davidovich, Olga E. Glukhova, Michael M. Slepchenkov, J. Miguel Rubi "Casimir forces between two carbon nanotubes" // Phys. Rev. B. 2021. Vol. 104, Iss. 8. P. 085409. DOI: doi.org/10.1103/PhysRevB.104.085409
  • Vladislav V. Shunaev, Olga E. Glukhova "Graphene/Fe3O4 Nanocomposite as a Promising Material for Chemical Current Sources: A Theoretical Study" // Membranes 2021. Vol. 11, no. 8. P. 642. DOI: 10.3390/membranes11080642
  • Michael M. Slepchenkov, Pavel V. Barkov, and Olga E. Glukhova "In Silico Study of the Electrically Conductive and Electrochemical Properties of Hybrid Films Formed by Bilayer Graphene and Single-Wall Nanotubes under Axial Stretching" // Membranes. 2021. Vol. 11, no. 9. P. 658. DOI: 10.3390/membranes11090658
  • Alexander Y. Gerasimenko, Artem V. Kuksin, Yury P. Shaman, Evgeny P. Kitsyuk, Yulia O. Fedorova, Artem V. Sysa, Alexander A. Pavlov, Olga E. Glukhova "Electrically Conductive Networks from Hybrids of Carbon Nanotubes and Graphene Created by Laser Radiation" // Nanomaterials 2021. Vol. 11, no. 8. P. 1875. DOI: 10.3390/nano11081875
  • Michael M. Slepchenkov, Pavel V. Barkov, Olga E. Glukhova "Hybrid Films Based on Bilayer Graphene and Single-Walled Carbon Nanotubes: Simulation of Atomic Structure and Study of Electrically Conductive Properties" // Nanomaterials. 2021. Vol. 11, no. 8. P. 1934. doi.org/10.3390/nano11081934

  • Olga E. Glukhova, Richard Pinčák "New effect of strong oscillation and anisotropy of electrical conductance in graphene films with vertically aligned carbon nanotubes and monolayer pillared graphene films" // Chemical Physics. 2021. Vol. 550. P. 111312, DOI: 10.1016/j.chemphys.2021.111312
  • Dmitry A. Kolosov, Olga E. Glukhova "Ab Initio Study of Porous Graphene–CNT Silicon Composite for Li-Ion and Na-Ion Batteries" // C—Journal of Carbon Research. 2021. Vol. 7, no. 3: 57. DOI: 10.3390/c7030057
  • Michael M. Slepchenkov, Alexander A. Petrunin, Olga E. Glukhova "In Silico Study of the Influence of Various Substrates on the Electronic Properties and Electrical Conductivity of Mono- and Bilayer Films of Armchair Single-Walled Carbon Nanotubes" // ChemEngineering. 2021. Vol. 5, Iss. 3. P. 48. DOI: 10.3390/chemengineering5030048
  • Pavel V. Barkov, Olga E. Glukhova "Holey Graphene: Topological Control of Electronic Properties and Electric Conductivity" // Nanomaterials 2021, 11(5), 1074. doi.org/10.3390/nano11051074.
  • Pavel V. Barkov, Olga E. Glukhova "Carboxylated Graphene Nanoribbons for Highly-Selective Ammonia Gas Sensors: Ab Initio Study" // Chemosensors 2021, 9(4), 84. doi.org/10.3390/chemosensors9040084.
  • Dmitry A. Kolosov, Olga E. Glukhova "Boron-Decorated Pillared Graphene as the Basic Element for Supercapacitors: An Ab Initio Study" // Applied Sciences 2021, 11(8), 3496. doi.org/10.3390/app11083496.
  • Dmitry A. Kolosov, Olga E. Glukhova "A New Composite Material on the Base of Carbon Nanotubes and Boron Clusters B12 as the Base for High-Performance Supercapacitor Electrodes" // C 2021, 7, 26. doi.org/10.3390/c7010026.
  • V.V. Shunaev, O.E. Glukhova "Nanoindentation of Graphene/Phospholipid Nanocomposite: A Molecular Dynamics Study" // Molecules 2021, 26, 346. doi.org/10.3390/molecules26020346.
  • A.Yu. Gerasimenko, U.E. Kurilova, M.S. Savelyev, D.T. Murashko, O.E. Glukhova "Laser fabrication of composite layers from biopolymers with branched 3D networks of single-walled carbon nanotubes for cardiovascular implants" // Composite Structures 2021, 260, 113517. doi: 10.1016/j.compstruct.2020.113517.
  • Vladislav V. Shunaev, Olga E. Glukhova Pillared Graphene Structures Supported by Vertically Aligned Carbon Nanotubes as the Potential Recognition Element for DNA Biosensors // Materials 2020, 13, 5219. doi:10.3390/ma13225219.
  • Dmitry A. Kolosov, Vadim V. Mitrofanov, Michael M. Slepchenkov, Olga E. Glukhova Thin Graphene–Nanotube Films for Electronic and Photovoltaic Devices: DFTB Modeling // Membranes 2020, 10, 341. doi:10.3390/membranes10110341.
  • Dmitry A. Kolosov, Olga E. Glukhova Theoretical Study of a New Porous 2D Silicon-Filled Composite Based on Graphene and Single-Walled Carbon Nanotubes for Lithium-Ion Batteries // Appl. Sci. 2020. 10, 5786. DOI: 10.3390/app10175786.
  • Michael M. Slepchenkov, Olga E. Glukhova Improving the Sensory Properties of Layered Phospholipid-Graphene Films Due to the Curvature of Graphene Layers // Polymers. 2020. 12, 1710.  DOI: 10.3390/polym12081710.
  • Gang Zhang, Olga E. Glukhova New automatic method for generating atomistic models of multi-branched and arbitrary-shaped seamless junctions of carbon nanostructures Computational Materials Science. 2020. Vol. 184, 109943. DOI: 10.1016/j.commatsci.2020.109943.
  • Olga E. Glukhova, Michael M. Slepchenkov, Pavel V. Barkov The Effect of Hydrogen on the Electrical Properties of the Graphene Nanomeshes // Journal of Carbon Research. 2020. 6(2), 35. DOI: 10.3390/c6020035.
  • Т.М. Крачковская, Л.А. Мельников, О.Е. Глухова, В.В. Шунаев, П.Д. Шалаев Металлопористые катоды, модифицированные наноуглеродом, с высокой долговечностью для применения в приборах СВЧ // Письма в журнал технической физики. 2020. Том 46. Выпуск 13. С. 51-54. DOI: 10.21883/PJTF.2020.13.49593.18315.
  • Michael M. Slepchenkov, Dmitry S. Shmygin, Gang Zhang, Olga E. Glukhova Controlling anisotropic electrical conductivity in porous graphene-nanotube thin films // Carbon. 2020. Vol. 165. P. 139-149. DOI: 10.1016/j.carbon.2020.04.069.
  • Olga E. Glukhova Liposome Drug Delivery System across Endothelial Plasma Membrane: Role of Distance between Endothelial Cells and Blood Flow Rate // Molekules. 2020. 25, 1875. doi:10.3390/molecules25081875
  • Michael M. Slepchenkov, Vadim V. Mitrofanov, Igor S. Nefedov and Olga E. Glukhova Electrical and Photovoltaic Properties of Layered Composite Films of Covalently Bonded Graphene and Single-Walled Carbon Nanotubes // Coatings. 2020. Vol. 10. Iss. 4. Num. 324 (11 p.). DOI: 10.3390/coatings10040324.
  • Fedor Fedorov, Maksim A. Solomatin, Margitta Uhlemann, Steffen Oswald, Dmitry A. Kolosov, Anatolii Morozov, Alexey S. Varezhnikov, Maksim A. Ivanov, Artem Grebenko, Martin Sommer, Olga E. Glukhova, Albert G. Nasibulin and Victor Sysoev Quasi-2D Co3O4 Nanoflakes as Efficient Gas Sensor versus Alcohol VOCs // Journal of Materials Chemistry A. 2020. Vol. 8. Iss. 15. P. 7214–7228. DOI:10.1039/D0TA00511H.
  • Olga E. Glukhova, Michael M. Slepchenkov, Dmitriy A. Kolosov 2D monocrystalline nanostructures of cobalt oxide Co3O4 for sensing individual molecules //Proceedings of SPIE. 2020.Vol. 11256. Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications XII. P. 112560P (5 p.).
  • Olga E. Glukhova, Michael M. Slepchenkov Patterns of interaction of the cell membrane with a matrix of natural polymers and carbon nanotubes // Proceedings of SPIE. 2020. Vol. 11256. Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications XII. P. 112560Q (5p.).
  • Vladislav V. Shunaev, Arseni V. Ushakov, Olga E. Glukhova Increase of γ‐Fe2O3/CNT composite quantum capacitance by structural design for performance optimization of electrode materials // International Journal of Quantum Chemistry. 2020. Vol. 120. Iss. 9. P. e26165 (6 p.).
  • Michael M. Slepchenkov, Igor S. Nefedov, and Olga E. Glukhova Controlling the Electronic Properties of a Nanoporous Carbon Surface by Modifying the Pores with Alkali Metal Atoms // Materials. 2020. Vol. 13. Iss. 3. P. 610 (11 p.).
  • Evgenia P. Gilshteyn, Stepan A. Romanov, Daria S. Kopylova, Georgy V. Savostyanov, Anton S. Anisimov, Olga E. Glukhova, Albert G. Nasibulin Mechanically Tunable Single-Walled Carbon Nanotube Films as a Universal Material for Transparent and Stretchable Electronics // ACS Appl. Mater. Interfaces. 2019. Vol. 11. I. 30. P. 27327-27334.
  • Michael M. Slepchenkov, Vladislav V. Shunaev and Olga E. Glukhova Response to external GHz and THz radiation of K+@C60 endohedral complex in cavity of carbon nanotube containing polymerized fullerenes // Journal of Applied Physics. 2019. Vol. 125. P. 244306.
  • George V. Savostyanov, Michael M. Slepchenkov, Alexander Yu. Gerasimenko, Dmitry V. Telyshev and Olga E. Glukhova  Transport gap engineering in zigzag graphene nanoribbons through topological design of deposited oxygen atoms: a new way to control the quantum transport in graphene-like materials // Mater. Res. Express. 2019. Vol. 6.  Num. 0950b6.
  • Michael M. Slepchenkov and Olga E. Glukhova Mechanical and Electroconductive Properties of Mono- and Bilayer Graphene–Carbon Nanotube Films // Coatings. 2019. Vol. 9(2). Num. 74. P. 1-15.
  • V.V. Shunaev, O.E. Glukhova Super square carbon nanotube networks: mechanical properties and electric conductivity // Lett. Mater. 2019. Vol. 9(1). P. 136-141.
  • O.E. Glukhova and M.M. Slepchenkov Graphene–Carbon Nanotube Hybrid Films for High-performance Photovoltaic Devices // RSC Smart Materials. Volume 2019-January. Issue 34. Layered Materials for Energy Storage and Conversion. Editors: Dongsheng Geng, Yuan Cheng, Gang Zhang. 2019. ISBN: 978-1-78801-426-7.
  • Vladislav V. Shunaev, Michael M. Slepchenkov, Olga E. Glukhova Single-Shell Carbon Nanotubes Covered with Iron Nanoparticles for Ion-Lithium Batteries: Thermodynamic Stability and Charge Transfer // Topics in Catalysis. 2018. Vol. 61. I. 15-17. P. 1716–1720.
  • George V. Savostyanov, Michael M. Slepchenkov, Dmitriy S. Shmygin and Olga E. Glukhova Specific Features of Structure, Electrical Conductivity and Interlayer Adhesion of the Natural Polymer Matrix from the Layers of Branched Carbon Nanotube Networks Filled with Albumin, Collagen and Chitosan // Coatings. 2018. Vol. 8. I. 11. Num. 378. P. 1-16.
  • A.Yu. Gerasimenko, O.E. Glukhova and M.S. Savelyev Interaction of laser radiation with carbon nanotubes for the creation of biocompatible media // J. Phys.: Conf. Ser. 2018. Vol. 1134. Num. 012016. P. 1-7.
  • Olga E. Glukhova, Dmitriy S. Shmygin The electrical conductivity of CNT/graphene composites: a new method for accelerating transmission function calculations // Beilstein J. Nanotechnol. 2018. Vol. 9. P. 1254-1262. 
  • Michael M. Slepchenkov, Pavel V. Barkov and Olga E. Glukhova High-Density Hydrogen Storage in a 2D-Matrix from Graphene Nanoblisters: A Prospective Nanomaterial for Environmentally Friendly Technologies  // Crystals. 2018. Vol. 8(4). № 161. P. 1-8. doi: 10.3390/cryst8040161
  • Olga E. Glukhova,  Igor S. Nefedov,  Alexander S. Shalin and  Мichael М. Slepchenkov New 2D graphene hybrid composites as an effective base element of optical nanodevices // Beilstein J. Nanotechnol. 2018, Vol. 9. P. 1321–1327.
  • L.P. Ichkitidze, O.E. Glukhova, G.V. Savostyanov, A.Yu. Gerasimenko, V.M. Podgaetsky, S.V. Selishchev, N.N. Zhurbina Enhancement of the conductivity of nanomaterial layers by laser irradiation // Optics InfoBase Conference Papers 2017. Volume Part F61-ECBO 2017, 2017, 8p
  • Ngoc Thanh Thuy Tran, Duy Khanh Nguyen, Olga E. Glukhova, Ming-Fa Lin Coverage-dependent essential properties of halogenated graphene: A DFT study // Scientific Reports. 2017. Vol. 7. Article number: 17858.
  • Olga E. Glukhova  Molecular Dynamics as the Tool for Investigation of Carbon Nanostructures Properties // Thermal Transport in Carbon-Based Nanomaterials by Editor Gang Zhang, 1st Edition, Imprint: Elsevier, 2017, 382 p., Hardcover ISBN: 9780323462402. P. 267-290.
  • V.V. Mitrofanov, M.M. Slepchenkov, G.Zhang, O.E. Glukhova Hybrid carbon nanotube-graphene monolayer films: Regularities of structure, electronic and optical properties // Carbon 2017. Vol. 115. P. 803–810.
  • A. Yu. Gerasimenko, O. E. Glukhova, G. V. Savostyanov, V. M. Podgaetsky, Laser structuring of carbon nanotubes in the albumin matrix for the creation of composite biostructures // J. Biomed. Opt. 2017. Vol. 22. P. 065003.
  • R. Pincak, V.V. Shunaev, J. Smotlacha, M.M. Slepchenkov, O.E. Glukhova Electronic Properties of Bilayer // Fullerene Onions, Fullerenes, Nanotubes and Carbon Nanostructures. 2017. DOI: 10.1080/1536383X.2017.1356825.
  • G.N. Ten, O.E. Glukhova, M.M. Slepchenkov, N.E. Shcherbakova, V.I. Baranov  A theoretical and optical spectroscopic study of the mechanism of a tautomeric transformation in the 7-azaindole dimer and the 7-azaindole complex with a water molecule // Journal of Structural Chemistry. 2017.  Vol. 58. I. 2. P. 226–235.
  • O.E. Glukhova  Mechanical Properties of Graphene Sheets // Graphene Science Handbook. Mechanical and Chemical Properties Edited by Mahmood Aliofkhazraei, Nasar Ali, William I. Milne, Cengiz S. Ozkan, Stanislaw Mitura, and Juana L. Gervasoni.CRC Press 2016 Pages 61–78. Print ISBN: 978-1-4665-9123-3 eBook ISBN: 978-1-4665-9124-0 DOI: 10.1201/b19674-6.
  • Olga E. Glukhova and Michael M. Slepchenkov Electronic Properties of the Functionalized Porous Glass-like Carbon // J. Phys. Chem. C. 2016. Vol. 120 (31). P. 17753–17758.
  • Olga E. Glukhova, Tatiana R. Prytkova, and George V. Savostyanov Simulation of High Density Lipoprotein Behavior on a Few Layer Graphene Undergoing Non-Uniform Mechanical Load // J. Phys. Chem. B. 2016. V. 120 (15). P. 3593–3600.
  • Ngoc Thanh Thuy Tran,  Shih-Yang Lin,  Olga E. Glukhova and  Ming-Fa Lin  π-Bonding-dominated energy gaps in graphene oxide // RSC Adv. 2016. Vol. 6. P. 24458-24463.
  • Vladislav Shunaev and Olga E Glukhova. Topology Influence on the Process of Graphene Functionalization by Epoxy and Hydroxyl Groups // J. Phys. Chem. C. 2016. Vol. 120(7). P. 4145–4149.
  • V.F. Korolovych, O.A. Grishina, O.A. Inozemtseva, A.V. Selifonov, D.N. Bratashov, S.G. Suchkov, L.A. Bulavin, O.E. Glukhova, G.B. Sukhorukov, D.A. Gorin Impact of high-frequency ultrasound on nanocomposite microcapsules: in silico and in situ visualization // Phys. Chem. Chem. Phys.2016. Vol. 18. P. 2389-2397.
  • O.A. Grishina, I.V. Kirillova, O.E. Glukhova. Biomechanical Rationale of Coronary Artery Bypass Grafting of Multivessel Disease // Computer Methods in Biomechanics and Biomedical Engineering. 2016. Vol. 19. I. 3. P. 297-305.
  • O.E. Glukhova G.V. Savost’yanov M.M. Slepchenkov, V.V. Shunaev New graphene technologies of manipulation with molecular objects // Technical Physics Letters 2016. Vol. 42. I. 6. P. 581–584.
  • O.E. Glukhova, A.S. Kolesnikova, M.M.Slepchenkov Influence of quantum effects on the parameters of the cold cathode with carbon nanotubes // Technical Physics. 2016. Vol 86. I. 1. P. 151-154.
  • N.A. Bushuyev, O.E. Glukhova Y.A. Grigoriev, D.V. Ivanov, A.S. Kolesnikova, A.A. Nikolaev, P.D. Shalaev, V.I. Shesterkin Emission characteristics of multibeam electron gun with field emission cathode glassy // Technical Physics. 2016. Vol 86. I. 2. P. 134-139.
  • O.E. Glukhova, V.A. Kondrashov, V.K. Nevolin, I.I. Bobrinetsky, G.V. Savostyanov, M.M. Slepchenkov Prediction of the stability and electronic properties of carbon nanotori synthesized under high-voltage pulsed discharge in ethanol vapors  // Semiconductors. 2016. Vol. 50. I. 4. P. 509-514.
  • G.N. Ten, O.E. Glukhova, M.M. Slepchenkov, V. I. Baranov Theoretical Analysis of the Fluorescence Spectra of 7-Azaindole and Its Tautomer // Optics and Spectroscopy. 2016. Vol. 120. I. 3. P. 359-366.
  • Michail M. Slepchenkov, Anna S. Kolesnikova, George V. Savostyanov, Igor S. Nefedov, Ilya V. Anoshkin, Albert G. Nasibulin, Olga E. Glukhova Giga- and terahertz-range nanoemitter based on peapod structure // Nano Research. 2015. Vol. 8. I. 8. P. 2595-2602.  
  • V.V. Shunaev, G.V. Savostyanov, M.M. Slepchenkov and O.E. Glukhova Phenomenon of current occurrence during the motion of a C60 fullerene on substrate-supported graphene // RSC Advances. 2015. Vol. 5. P. 86337-86346
  • Olga E. Glukhova, Anna S. Kolesnikova, and Michael M. Slepchenkov New Approach to Manipulate the Phospholipid Molecules on Graphene // J. Phys. Chem. C. 2015. Vol. 119 (21). P. 11941–11946.
  • Ngoc Thanh Thuy Tran, Shih-Yang Lin, Olga E. Glukhova, and Ming-Fa Lin Configuration-Induced Rich Electronic Properties of Bilayer Graphene // J. Phys. Chem. C. 2015. Vol. 119 (19). P. 10623–10630.
  • Tatiana R. Prytkova, Vladislav V. Shunaev, Olga E. Glukhova, and Igor V. Kurnikov Donor/Acceptor Coupling Shortcuts in Electron Transfer within Ruthenium-Modified Derivatives of Cytochrome b562 // J. Phys. Chem. B. 2015. Vol. 119 (4). P. 1288–1294.
  • A.S. Kolesnikova, M.M. Slepchenkov, M.F. Lin, and O.E. Glukhova Influence of Size Effect on the Electronic and Elastic Properties of Graphane Nanoflakes: Quantum Chemical and Empirical Investigations // Advances in Condensed Matter Physics. 2015. Vol. 2015.  Article ID 735192. P. 1-5.
  • O. E. Glukhova, A. S. Kolesnikova, M. M. Slepchenkov, D. S. Shmygin Atomic structure of energetically stable carbon nanotubes/graphene composites // Physics of the Solid State. 2015. Vol. 57. I. 5. P. 1009-1013.
  • O.E. Glukhova, G.V. Savostyanov, M.M. Slepchenkov. A new approach to dynamical determination of the active zone in the framework of the hybrid model (quantum mechanics/ molecular mechanics) // Procedia Materials Science. 2014. Vol. 6. P. 256–264.
  • O.E. Glukhova, M.M. Slepchenkov, V.V. Shunaev Effect of the deflection strain on the atomic and electronic structure of a graphene nanoparticle // Physics of the Solid State 2014. Vol. 56. I. 9. P. 1922-1927.
  • O.E. Glukhova, A. S. Kolesnikova, I. S. Nefedov, M. M. Slepchenkov Nanoemitter of giga- and terahertz ranges based on a carbon peapod: Numerical simulation // JETP Letters 2014. Vol. 99. I. 6. P. 349-352.
  • O.E. Glukhova, A.S. Kolesnikova, M.M. Slepchenkov, V.V. Shunaev Moving of Fullerene Between Potential Wells in the External Icosahedral Shell // J. Comput. Chem. 2014. Vol. 35. I. 17. P. 1270-1277.
  • V. I. Shesterkin, O. E. Glukhova, D. V. Ivanov, A. S. Kolesnikova Computational and experimental estimation of the autoelectron energy spectrum for multiple-tip cathode matrix made of glassy carbon// Journal of Communications Technology and Electronics 2014. Vol. 59. I. 8. P. 827-832.
  • O.E. Glukhova, A.S. Kolesnikova, M.M. Slepchenkov Stability of the thin partitioned carbon nanotubes // Journal of Molecular Modeling 2013. Vol. 19. Issue 10. P. 4369-4375.
  • O.E. Glukhova, A.S. Kolesnikova, M.M. Slepchenkov Polymerization of miniature fullerenes in the cavity of nanotubes // Journal of Molecular Modeling 2013. Vol. 19. I. 3. P. 985-990.
  • O.E. Glukhova, A.S. Kolesnikova and I.V. Kirillova Investigation of the Effect of Bending on the Polymerization of Fullerenes Inside Carbon Nanotubes // Fullerenes, Nanotubes and Carbon Nanostructures 2012. Vol. 20. I. 4-7. P. 391-394.
  • Olga Е. Glukhova, Michael M. Slepchenkov Influence of the curvature of deformed graphene nanoribbons on their electronic and adsorptive properties: theoretical investigation based on the analysis of the local stress field for an atomic grid // Nanoscale. 2012. Vol. 4. I. 11. P. 3335-3344.
  • Olga E. Glukhova Dimerization of miniature C20 and C28 fullerenes in nanoautoclave // Journal of Molecular Modeling 2011. Vol. 17. I. 3. Page 573-576.
  • O.E. Glukhova, A.S. Kolesnikova Empirical Modelling of Longitudinal Tension and Compression of Graphene Nanoparticles and Nanoribbons // Physics of the Solid State. 2011. Vol. 53. No.9 P. 1957-1962.
  • O.E. Glukhova, I.N. Saliy, R.Y. Zhnichkov, I.A. Khvatov, A.S. Kolesnikova and M.M. Slepchenkov Elastic properties of graphene-graphane nanoribbons // Journal of Physics: Conference Series 2010. Vol. 248. N. 012004.
  • O.E. Glukhova, A.S. Kolesnikova, G.V. Torgashov and Z.I. Buyanova Elastic and electrostatic properties of bamboo-shaped carbon nanotubes // Physics of the Solid State. 2010. Vol. 52, Num. 6. P. 1323-1328
  • O.E. Glukhova, G.V. Torgashov, Z.I. Buyanova Synthesis of bamboo-like carbon nanotubes and thetheoretical simulation of their physical properties // Russian Journal of Mathematical Physics. – 2008.– V.15.– №3. – Р.413–415.
  • O.E. Glukhova Theoretical study of the structure of the C60@C450 nanoparticle and relative motion of the encapsulated C60 molecule // Journal of Structural Chemistry. 2007. Vol. 48. SUPPL. 1. S. 141-146.
  • O.E. Glukhova, O.A. Terent'ev Theoretical study of the dependences of the young’s and torsion moduli of thin single-layer carbon zigzag and armchair nanotubes on the geometric parameters // Physics of the Solid State. 2006. Vol. 48. I. 7. P. 1411-1417
  • O.E. Glukhova, A.I. Zhbanov and A.G. Rezkov Rotation of the inner shell in a C20@C80 nanoparticle // Physics of the Solid State. 2005. Vol. 47. Num. 2. Pages 390-396.
  • O.E. Glukhova, A.I. Zhbanov, G.V. Torgashov, N.I. Sinitsyn, I.G. Torgashov Effect on the Field Emission of Cаrbon Nanotube Films // Applied Surface Science.– 2003.–Vol.215. – I. 1-4.– P.149-159.
  • N.I. Sinitsyn, Yu.V. Gulyaev, G.V. Torgashov, L.A. Chernozatonskii, Z.Ya. Kosakovskaya, Yu.F. Zakharchenko, N.A. Kiselev, A.L. Musatov, A.I. Zhbanov, Sh.T. Mevlyut, O.E. Glukhova Thin films consisting of carbon nanotubes as a new material for emission electronics // Applied Surface Science.– 1997.– Vol. 111. – P.145-150.
  • Yu.V. Gulyaev, N.I. Sinitsyn, G.V. Torgashov, Sh.T. Mevlyut, A.I. Zhbanov, Yu.F. Zakharchenko, Z.Ya. Kosakovskaya, L.A. Chernozatonskii, O.E. Glukhova, O.E. Torgashov Work function estimate for electrons emitted from nanotube carbon cluster films // Journal Vacuum Sсience Technology: B.– 1997.–Vol.15.– I. 2. – Р. 422-424.

List of publications in proceedings of international conferences, indexed Web of Science:

  • O.E. Glukhova, V.V. Shunaev, A.S. Dol, D.I. Ivanov, A. Yu. Gerasimenko Interaction of new hybrid patch with blood vessels and heart layers // Proceedings of SPIE. 2019. Vol. 10893. Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications XI. P. 108930V-1-108930V-10.
  • O.E. Glukhova, D.S. Shmygin, G.V. Savostyanov, K.R. Asanov Regularities of the formation of a framework from a mixture of single-walled carbon nanotubes in a protein matrix based on albumin and collagen for tissue engineering // Proceedings of SPIE. 2019. Vol. 10893. Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications XI; 108930W. P. 108930W-1-108930W-6.
  • O.E. Glukhova, D.S. Shmygin Molecular modeling of multilayer cellular and tissue engineering structures based on a wireframe of carbon nanotubes and protein matrix for restoring the tissues of the heart and blood vessels // Proceedings of SPIE. Vol. 10893. Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications XI. P. 108930X-1-108930X-5. 
  • O.E. Glukhova, M.M. Slepchenkov Theoretical study of the interaction of the electromagnetic field of laser radiation with a mixture of single-walled carbon nanotubes in a protein matrix // Proceedings of SPIE. 2019. Vol. 10893. Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications XI; 108930Y-1-108930Y-6.
  • O.E. Glukhova, M.M. Slepchenkov, V.V. Mitrofanov Electronic properties of graphen-carbon nanotube films // Proceedings of SPIE. 2019. Vol. 11066. Saratov Fall Meeting 2018: Laser Physics, Photonic Technologies, and Molecular Modeling. P. 110661L-1-110661L-6.
  • O.E. Glukhova, M.M. Slepchenkov, P.V. Barkov Perspectives of application of 2D-matrix of graphene nanoblisters for hydrogen storage. Proceedings of SPIE. 2019. Vol. 11066. Saratov Fall Meeting 2018: Laser Physics, Photonic Technologies, and Molecular Modeling. P. 110661K-1-110661K-8. 
  • O.E. Glukhova, D.S. Shmygin Perspectives of graphene-nucleotide complexes for the development of new bioelectronics devices // Proceedings of SPIE. 2018. Vol. 10508. Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications X. P. 105080P.
  • O.E. Glukhova, A.A. Zyktin, M.M. Slepchenkov In silico study of liposome transport across biomembranes // Proceedings of SPIE. 2018. Vol. 10508. Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications X. P. 105080Q.
  • O.E. Glukhova, A.A. Zyktin, M.M. Slepchenkov Investigation of the mechanism for penetration of low density lipoprotein into the arterial wall // Proceedings of SPIE. 2018. Vol. 10508, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications X. P. 105080R.
  • O.E. Glukhova, M.M. Slepchenkov, P.V. Barkov Theoretical prediction of the energy stability of graphene nanoblisters // Proceedings of SPIE. 2018. Vol. 10716. Saratov Fall Meeting 2017: Optical Technologies in Biophysics and Medicine XIX. P. 107161Q-1-107161Q-6.
  • L.P. Ichkitidze, O.E. Glukhova, G.V. Savostyanov, A.Yu. Gerasimenko, V.M. Podgaetsky, S.V. Selishchev Stimulation of the specific conductivity of the biocompatible nanomaterial layers by laser irradiation // Proceedings of SPIE. 2018. Vol. 10685. Biophotonics: Photonic Solutions for Better Health Care VI. P. 106853Q-1- 106853Q-12.
  • M.A. Volkova, Y.A. Korneev, N.N. Zhurbina, A.Y. Gerasimenko, O.E. Glukhova The possibility of creation tissue-engineered structures with a structured internal nanocarbon scaffold in an organic matrix for repairing tissues of the cardiovascular system // Proceedings of the 2018 IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering. Num. 17618407. P. 1952-1956.
  • A.Yu.Gerasimenko, O.E.Glukhova, M.M.Slipchenkov, V.M.Podgaetsky Laser structuring protein biostructures with carbon nano frame for bone & cartilage cells proloferation // 2018 International Conference Laser Optics (ICLO). P. 592.
  • O.E. Glukhova, A.A. Zyktin, M.M. Slepchenkov Investigation of the mechanism for penetration of low density lipoprotein into the arterial wall // Proceedings of SPIE. 2018. Vol. 10508, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications X. P. 105080R.
  • O.E. Glukhova, D.S. Shmygin Perspectives of graphene-nucleotide complexes for the development of new bioelectronics devices // Proceedings of SPIE. 2018. Vol. 10508. Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications X. P. 105080P.
  • O.E. Glukhova, A.A. Zyktin, M.M. Slepchenkov In silico study of liposome transport across biomembranes // Proceedings of SPIE. 2018. Vol. 10508. Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications X. P. 105080Q.
  • A.Yu. Gerasimenko, O.E. Glukhova , G.V. Savostyanov , M.S. Savelyev, L.P. Ichkitidze, Y.P. Masloboev, S.V. Selishchev, V.M. Podgaetsky Laser Structuring of Carbon Nanoframe in a Protein Matrix for the Creation of 3-D Composite Materials and Coatings for Applications in Tissue Engineering // Proc. of SPIE-OSA. 2017.  Vol. 10413. P. 104130K.
  • L.P. Ichkitidze, O.E. Glukhova, G.V. Savostyanov, A.Y. Gerasimenko, V.M. Podgaetsky, S.V. Selishchev, N. N. Zhurbina Enhancement of the Conductivity of Nanomaterial Layers by Laser Irradiation //  Proceedings of SPIE. 2017. Vol. 10417. P. 1041708.
  • L.P. Ichkitidze, O.E. Glukhova, G.V. Savostyanov, A.Yu. Gerasimenko, V.M. Podgaetsky, S.V. Selishchev, N.N. Zhurbina Enhancement of the conductivity of nanomaterial layers by laser irradiation // Proceedings of SPIE. 2017.10417, Medical Laser Applications and Laser-Tissue Interactions VIII, 1041708
  • O.E. Glukhova, M.M. Slepchenkov, D.S. Shmygin Nanoindentation of a new graphene/phospholipid composite: a numerical simulation. SPIE Proceedings Vol. 10079: Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications IX. P. 1007910-1-1007910-6.
  • O.E. Glukhova, M.M. Slepchenkov Phospholipid dynamics in graphene of different topologies: predictive modeling SPIE Proceedings Vol. 10079: Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications IX. P.1007912-1-1007912-7.
  • O.E. Glukhova, G.V. Savostyanov, M.M. Slepchenkov, A.A. Zyktin A new hybrid model to simulate interaction between DNA and carbon nanostructure SPIE Proceedings Vol. 10079: Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications IX. P. 1007911-1-1007911-6.
  • O.E. Glukhova, T.R. Prytkova, V.V. Shunaev Calculation of electron transfer in ruthenium-modified derivatives of cytochrome b562 // Proceedings of SPIE. 2016. Vol. 9723, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VIII. P. 97230V-1- 97230V-5.
  • O.E. Glukhova, T.R. Prytkova, D.S. Shmygin Theoretical investigation of interaction between the set of ligands and α 7 nicotinic acetylcholine receptor // Proceedings of SPIE. 2016. Vol. 9723. Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VIII. P. 97230U-1- 97230U-5.
  • O.E. Glukhova, M.M. Slepchenkov Theoretical prediction of mutual influence between phospholipid and nanotube during their interaction // Proceedings of SPIE. 2016. Vol.  9723. Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VIII. P. 97230X-1-97230X-5.
  • G.N. Ten, O.E. Glukhova, A.M. Semagina, M.M. Slepchenkov, V.I. Baranov The structure definition of complementary pairs Ade-Ura in different phase states using IR spectra // Proc. SPIE 9448, Saratov Fall Meeting 2014: Optical Technologies in Biophysics and Medicine XVI; Laser Physics and Photonics XVI; and Computational Biophysics, 944815 (March 19, 2015); doi: 10.1117/12.2180072.
  • O.E. Glukhova, O.A. Grishina, M.M. Slepchenkov Atomistic modeling of the structural components of the blood-brain barrier // Proc. SPIE 9448, Saratov Fall Meeting 2014: Optical Technologies in Biophysics and Medicine XVI; Laser Physics and Photonics XVI; and Computational Biophysics, 94481G (March 19, 2015); doi: 10.1117/12.2180071.
  • O.E. Glukhova, O.A. Grishina, G.V. Savostyanov Phospholipid liposomes functionalized by protein // Proc. SPIE 9339, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VII, 93390S (March 24, 2015); doi: 10.1117/12.2079978.
  • O.E. Glukhova, O.A. Grishina Impact of magnetite nanoparticle incorporation on the eigenfrequencies of nanocomposite microcapsules // Proc. SPIE 9339, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VII, 93390T (March 24, 2015); doi: 10.1117/12.2079996.
  • O.E. Glukhova, A.S. Kolesnikova, M.M. Slepchenkov Terahertz emitter based on single-walled nanotube filled with fullerenes C60 // Proc. SPIE 9339, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VII, 93390U (March 24, 2015); doi: 10.1117/12.2080058.
  • O.E. Glukhova, A.S. Kolesnikova, M.M. Slepchenkov, D.S. Shmygin A control of phospholipid motion on graphene layer under external electric field // Proc. SPIE 9339, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VII, 93390V (March 24, 2015); doi: 10.1117/12.2080072.
  • O.E. Glukhova, A.S. Kolesnikova, M.M. Slepchenkov, G.V. Savostyanov, D.S. Shmygin Atomic structure of energetically stable composites, based on carbon nanotubes and graphene // Proc. SPIE 9339, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VII, 93390W (March 24, 2015); doi: 10.1117/12.2080086.
  • O.E. Glukhova, A.S. Kolesnikova, M.M. Slepchenkov, G.V. Savostyanov Prediction of stability for carbon nanotori // Proc. SPIE 9339, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VII, 93390X (March 24, 2015); doi: 10.1117/12.2080102.
  • O.E. Glukhova, A.S. Kolesnikova, D.A. Melnikov, M.M. Slepchenkov, V.V. Shunaev Theoretical study of the behavior of cryptand with different ion metal inside carbon nanotube // Proc. SPIE 9339, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VII, 93390Y (March 24, 2015); doi: 10.1117/12.2080139.
  • O.E. Glukhova, V.V. Mitrofanov, M.M. Slepchenkov, V.V. Shunaev Manipulation of fullerene molecules on graphene // Proc. SPIE 9339, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VII, 933910 (March 24, 2015); doi: 10.1117/12.2080245.
  • O.E. Glukhova, A.S. Kolesnikova, M.M. Slepchenkov, G.V. Savostyanov Simulation of the formation for molecular compounds of nanotubes with different chirality indexes to create new molecular devices on their basis // Proc. SPIE 9339, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VII, 933910 (March 24, 2015); doi: 10.1117/12.2080313.
  • O.E. Glukhova, A.S. Kolesnikova, O.A. Grishina, M.M. Slepchenkov Structure and properties of composites based chitosan and carbon nanostructures: atomistic and coarse-grained simulation // Proc. SPIE 9339, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VII, 933911 (March 24, 2015); doi: 10.1117/12.2080359.
  • O.E. Glukhova, A.S. Kolesnikova, M.M. Slepchenkov, V.V. Shunaev Prediction of the behavior for fullerene C20 inside the icosahedral outer shell of C240 // Proceedings of SPIE. 2014. Nanophotonics V, 91263F. doi: 10.1117/12.2052544.
  • O.E. Glukhova, U. V. Gulyaev, N. I. Sinitsyn, G. V. Torgashov Carbon Nanotubes - Based the Cold Cathode for Field Emission Electronics // Proceedings of Vacuum Electron Sources Conference (IVESC) 2014. Tenth International. P.1-2. DOI: 10.1109/IVESC.2014.6891986
  • O.E. Glukhova, A.S. Kolesnikova, M.M. Slepchenkov Terahertz emitter based on single-walled nanotube filled with fullerenes C60. Proceedings of Vacuum Electron Sources Conference (IVESC), 2014 Tenth International. P.54. DOI: 10.1109/ICCTPEA.2014.6893272
  • O.E. Glukhova, A.S. Kolesnikova, M.M. Slepchenkov, V.V. Shunaev, G.V. Torgashov Partitioned carbon nanotubes as perspective nanomaterial for energy conversion // Proc. SPIE. 8956, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VI, 895615. (2014) doi: 10.1117/12.2040648.
  • O.E. Glukhova, A. S. Kolesnikova, M.M. Slepchenkov, V.V. Shunaev, G.V. Savostyanov Unit coefficient of thermal conductivity of carbon nanotubes with positions of their use as a material for nano-emitters // Proc. SPIE. 8956, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VI, 895616. (2014) doi: 10.1117/12.2040664.
  • O.E. Glukhova, A.S. Kolesnikova, M.M. Slepchenkov, V.V. Shunaev Theoretical investigation of bilayer fullerene C60@C540 in term of its biomedical application // Proc. SPIE. 8956, Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VI, 895617. (2014) doi: 10.1117/12.2040676.
  • Olga E. Glukhova, Elena L. Kossovich, Liyana R. Menisheva, Anna S. Kolesnikova Molecular dynamics study of phospholipid biomacromolecules using a coarse-grained model // Proc. of SPIE. 2013. Vol. 8596. Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications. V 859610.
  • Olga E. Glukhova, Igor N. Saliy, Anna S. Kolesnikova, Elena L. Kossovich, Michael M. Slepchenkov Carbon nanotube+graphene quantum dots complex for biomedical applications // Proc. of SPIE. 2013. Vol. 8596. Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications V 859612.
  • Olga E. Glukhova, Igor S. Nefedov, Anna S. Kolesnikova, Michael M. Slepchenkov, Oleg A. Terentev, Vladislav V. Shunaev Development of the terahertz emitter model based on nanopeapod in terms of biomedical applications // Proc. of SPIE. 2013. Vol. 8596. Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications V 859611.
  • O.E. Glukhova, I.V. Kirillova, G.N. Maslyakova, E.L. Kossovich, D.A. Zayarsky, A.A. Fadeev Study of lipoproteins and arterial intima interaction based on arterial endothelial cells real geometrical structure // Proc. SPIE 8699. Saratov Fall Meeting 2012: Optical Technologies in Biophysics and Medicine XIV; and Laser Physics and Photonics XIV, 869907.
  • O.E. Glukhova, A.S. Kolesnikova Mechanical and emission properties of thinnest stable bamboolike nanotubes // Journal of Physics: Conference Series 2012. Vol. 393. N. 012027.
  • O.E. Glukhova, A.S. Kolesnikova, E.L. Kossovich, R.Y. Zhnichkov Super strong nanoindentors for biomedical applications based on bamboo-like nanotubes // Proc. of SPIE. 2012. Vol. 8233. P. 823311-1-823311-8.
  • O.E. Glukhova, I.V. Kirillova, A.S. Kolesnikova, E.L. Kossovich, G.N. Ten Strain-hardening effect of graphene on a chitosan chain for the tissue engineering // Proc. of SPIE. 2012. Vol. 8233. P. 82331E-1-82331E-7.
  • O.E. Glukhova, I.V. Kirillova, O.E. Glukhova M.M. Slepchenkov The curvature influence of the graphene nanoribbon on its sensory properties // Proc. of SPIE. 2012. Vol. 8233. P. 82331B-1-82331B-6.

Participation in international conferences:

  • III International Workshop on Electromagnetic Properties of Novel Materials, December, 18-20, 2018 Moscow (Skolkovo Institute of Science and Technology), Russia
  • 2nd International Conference on Catalysis and Chemical Engineering, February 19-21, 2018 Paris, France
  • 5th International Conference on Nanotechnology and Materials Science (Nanotek-2017), October 16-18,  Dubai, United Arab Emirates
  • International Conference and Expo on Condensed Matter Physics, September 25-27, 2017 Valencia, Spain
  • International Symposium Optics and Biophotonics-IV Saratov Fall Meeting 2016, 27–30 Septemer 2016, Saratov State University
  • Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications VII. SPIE Photonics West. 15 - 16 February 2016, The Moscone Center, San Francisco, California, United States.
  • 40th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz) 2015, 23 - 28 August 2015, The Chinese University of Hong Kong, Hong Kong;
  • The Conference and Marketplace for the Photonics, Biophotonics, and Laser Industry SPIE Photonics West 2015, 7–12 February 2015, The Moscone Center San Francisco, California, United States;
  • United Conference IVESC-ICEE-ICCTPEA-BDO-2014, 30th June - 4th July 2014. Saint Petersburg, Russian Federation;
  • XII International Conference on Nanostructured Materials NANO, 13–18 July 2014, Moscow, Russian Federation;
  • The Conference and Marketplace for the Photonics, Biophotonics, and Laser Industry SPIE Photonics West 2014, 1–6 February 2014, The Moscone Center San Francisco, California, United States;
  • 3rd International Conference on Materials Processing and Characterization (ICMPC-2014), 8-9 March 2014, Hyderabad, India.
  • The Conference and Marketplace for the Photonics, Biophotonics, and Laser Industry SPIE Photonics Europe, 14-17 April 2014, Brussel, Belgium.
  • The Third International Scientific - Practial Conference "Innovative information technologies", 21-25 April 2014, Praha, Czech Republic.
  • The Conference and Marketplace for the Photonics, Biophotonics, and Laser Industry SPIE Photonics West, 1–6 February 2014, The Moscone Center San Francisco, California, United States;
  • The Conference and Marketplace for the Photonics, Biophotonics, and Laser Industry SPIE Photonics West, 5–7 February 2013 года, The Moscone Center San Francisco, California, United States;
  • International Conference on Theoretical Physics: Dubna-Nano 2012, Bogoliubov Laboratory of Theoretical Physics, Joint Institute for Nuclear Research, 9-14 July 2012, Joint Institute for Nuclear Research, Dubna;
  • The Conference and Marketplace for the Photonics, Biophotonics, and Laser Industry SPIE Photonics West, 21 - 26 January 2012, The Moscone Center San Francisco, California, United States;
  • 20-th International Symposium «Nanostructures: Physics and Technology», Ioffe Physical-Technical Institute, June 24-30, 2012, Nizhny Novgorod;
  • Joint International Conference «Advanced Carbon Nanostructures» ACN'2011, July 4-8, 2011, St.Petersburg, Institute of International Educational University.
  • The Conference and Marketplace for the Photonics, Biophotonics, and Laser Industry SPIE Photonics West, 22-27 January 2011 года, Moscone Center, San Francisco, California, USA;
  • IV International Conference "Deformation and fracture of materials and nanomaterials", 25-28 October 2011, Moscow, A.A.Baikov Institute of Metallurgy and Materials Science of RAS;
  • International Conference on Theoretical Physics: Dubna-Nano 2010, 5–10 July 2010 года, Joint Institute for Nuclear Research, Dubna;
  • VII International Kazakh-Russian-Japanese conference, Volgograd State University, Volgograd, 3-4 June 2009;
  • 16th International Symposium «Nanostructures: Physics and Technology», Ioffe Physical-Technical Institute, 14-18 July, 2008, Vladivostok, Russia.

Training of highly qualified scientific personnel

  • O.A. Terentev, Candidate in Physical and Mathematical Sciences, specialties 05.27.01 "Solid-state electronics, radio-electronic components, micro-and nanoelectronics, devices on quantum effects" and 01.04.04 "Physical Electronics". Theme "Atomic structure and emissivity of irregular tubular nanoclusters ";
  • A.S. Kolesnikova, Candidate in Physical and Mathematical Sciences, specialty 05.27.01 "Solid-state electronics , radio-electronic components , micro-and nanoelectronics, devices on quantum effects". Theme "Atomic structure and electron-energy characteristics of carbon nanotubes of complex shape";
  • M.M. Slepchenkov, Candidate in Physical and Mathematical Sciences, specialty 05.27.01 "Solid-state electronics , radio-electronic components , micro-and nanoelectronics, devices on quantum effects". Theme "Atomic and electronic structure of graphene nanoribbons and graphane nanoparticles at mechanical compression".
  • V.V. Shunaev, Candidate in Physical and Mathematical Sciences, specialty 05.27.01 "Solid-state electronics , radio-electronic components , micro-and nanoelectronics, devices on quantum effects". Theme "The electronic properties and energy parameters of modified graphene-fullerene complexes with the position of application in nanoelectronics".
  • G.V. Savostianov, Candidate in Physical and Mathematical Sciences, specialties 01.04.04 "Physical Electronics" and 05.13.18 "Mathematical modeling, numerical methods and program complexes". Theme "Regularities of electric current flow in oxidized graphene "zigzag" nanoribbons and branched structures based on "armchair" nanotubes".
  • D.S. Shmygin, Candidate in Physical and Mathematical Sciences, specialty 01.04.04 “Physical Electronics”. Theme “Pillared graphene: features of electron transport, patterns of charge flow and electron-energy characteristics”.

Monographs

  • O. E. Glukhova, A. S. Kolesnikova, G. V. Savostyanov, M. M. Slepchenkov Software program “KVAZAR” - a platform for predictive, modeling in the field of nano - and biomedical technologies. Publishing of "Saratov source". 248 pages.
  • O.E. Glukhova, L.N. Aksenovskaya Modeling of organizational and organizational and cultural interaction: atomistic approach. - Saratov: "Saratov power" Publishing House, 2016. - 99 p. ISBN 978-5-91879-624-5.
  • O.E. Glukhova, A.V. Gorokhovsky, N.D. Zhukov, B.N. Klimov, S.N. Stukov, S.Y. Shchegolev Basics of Nanoindustry // Publishing House of Saratov University Press, 2009, 384 p.
  • O.E. Glukhova, I.N. Saliy Canonical transmission lines and their application in microwave technology // Publisher "Saratov power", 2010, 131 p.

Educational and Methodological Activity

Invited lecturer at National Chung-Hsing University (Taiwan), 1 - 10 December 2014. Lecture Course: «The development of methods of manipulation of behavior and properties of the molecules on the graphene and inside the nanotube»

Invited lecturer at National Center of High Perfomance Computing (Taiwan), 1 - 10 December 2014. Lecture Course: «Developed Open-source software "KVAZAR" for investigations of nanostructures».

Invited lecturer at National Chung-Kung University (Taiwan), 1 - 10 December 2014. Lecture Course: «Nanocomposites based carbon nanostructures and biomolecules».

Invited lecturer at the XI International Winter School on Theoretical Physics in the program DIAS-TH «Physics at LHC». JINR, Dubna, January 28 – February 3, 2013. Lecture Course: "Multiscale modeling of the dynamics and properties of nanostructures."

Invited lecturer at the VII Winter School on Theoretical Physics in the program DIAS-TH «Physics at LHC». JINR, Dubna, January 25 - February 5, 2009 Lecture Course: "Carbon nanoclusters as elements of nanodevices"

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Predictive multiscale modeling in life sciences and sphere of high technologies