Vadim Igorevich Avilov
+7(928) 120-08-30
Senior researcher
Institute of Nanotechnologies, Electronics and Equipment Engineering
Senior researcher
Institute of Nanotechnologies, Electronics and Equipment Engineering
Associate Professor
Institute of Nanotechnologies, Electronics and Equipment Engineering
Research interests:
Nanotechnology, nanomaterials, nanoelectronics, micro- and nanosystem technology, scanning probe microscopy, nanolithography, carbon nanotubes, oxide nanoscale structures, memristor structures, RRAM, neuromorphic systems, multibit memory
Research projects:
Publications in journals indexed in the databases "Web of Science", "Scopus"
Ageev O.A., Smirnov V.A., Solodovnik M.S., Rukomoikin A.V., Avilov V.I., A Study of the formation modes of nanosized oxide structures of gallium arsenide by local anodic oxidation// Semiconductors, 2012, Vol. 46, N 13, p. 1616;1621.
Avilov V.I., Ageev O.A., Kolomiitsev A.S., Konoplev B.G., Smirnov V.A., Tsukanova O.G., Formation of a Memristor Matrix Based on Titanium Oxide and Investigation by Probe-Nanotechnology Methods// Semiconductors, 2014, Vol. 48, No. 13, pp. 1757;1762.
Avilov V.I., Ageev O.A., Blinov Y.F., Konoplev B.G., Polyakov V.V., Smirnov V.A., Tsukanova O.G., Simulation of the Formation of Nanosize Oxide Structures by Local Anode Oxidation of the Metal Surface// Technical Physics, 2015, Vol. 60, No. 5, pp. 717;723
Avilov V.I., Ageev O.A., Smirnov V.A., Solodovnik M.S., Tsukanova O.G., Studying the Modes of Nanodimensional Surface Profiling of Gallium Arsenide Epitaxial Structures by Local Anodic Oxidation// Nanotechnologies in Russia, 2015, Vol. 10, No. 3;4, pp. 214;219.
V. I. Avilov, O. A. Ageev, B. G. Konoplev, V. A. Smirnov, M. S. Solodovnik, and O. G. Tsukanova, Study of the Phase Composition of Nanostructures Produced by the Local Anodic Oxidation of Titanium Films// Semiconductors, 2016, Vol. 50, No. 5, pp. 601;606.
V.I. Avilov, O.A. Ageev, I.L. Jityaev, A.S. Kolomiytsev, V.A. Smirnov, Investigation of memristor effect on the titanium nanowires fabricated by focused ion beam // International Conference on Micro- and Nano-Electronics 2016, Vol. 10224 102240T, P. 5.
V I Avilov, N V Polupanov, R V Tominov, V A Smirnov and O A Ageev, Scanning probe nanolithography of resistive memory element based on titanium oxide memristor structures // IOP Conference Series: Materials Science and Engineering 2017, Vol. 256, 012001, P. 5.
M S Solodovnik, S V Balakirev, M M Eremenko, I A Mikhaylin, V I Avilov, S A Lisitsyn and O A Ageev, Droplet epitaxy of GaAs nanostructures on the As-stabilized GaAs(001) surface // IOP Conf. Series: Journal of Physics: Conf. Series 2017, Vol. 917, 032037, P. 5.
Lisitsyn, S.A., Balakirev, S.V., Avilov, V.I., Kolomiytsev, A.S., Klimin, V.S., Solodovnik, M.S., Konoplev, B.G., Ageev, O.A, Study of Nanoscale Profiling Modes of GaAs Epitaxial Structures by Focused Ion Beams // Nanotechnologies in Russia, Volume 13, Issue 1-2, 1 January 2018, Pages 26-33
V I Avilov, V A Smirnov, A A Fedotov, R V Tominov, N A Sharapov and N A Polupanov, Formation of memristor nanostructures for RRAM memory by local anodic oxidation // IOP Conf. Series: Materials Science and Engineering Vol. 443 (2018) 012004
I L Jityaev, A M Svetlichnyi, V I Avilov, I N Kots, A S Kolomiytsev, O A Ageev, Influence of the FIB parameters on the etching of planar nanosized multigraphene/SiC field emitters // IOP Conf. Series: Materials Science and Engineering Vol. 443 (2018) 012012
O G Karenkih, V I Avilov, V A Smirnov, A A Fedotov, N A Sharapov and N A Polupanov, Modelling of local anodic oxidation of titanium oxide nanostructures formation process // IOP Conf. Series: Materials Science and Engineering Vol. 443 (2018) 012013
R V Tominov, V A Smirnov, V I Avilov, A A Fedotov, V S Klimin and N E Chernenko, Formation of ZnO memristor structures by scratching probe nanolithography // IOP Conf. Series: Materials Science and Engineering Vol. 443 (2018) 012036
V I Avilov, A S Kolomiytsev, R V Tominov, N I Alyabyeva, E M Bykova, Investigation of the electrode material influence on the titanium oxide nanosize structures memristor effect // IOP Conf. Series: Journal of Physics: Conf. Series Vol. 1124 (2018) 022019
V. A. Smirnov, R. V. Tominov, V. I. Avilov, N. I. Alyabieva, Z. E. Vakulov, E. G. Zamburg, D. A. Khakhulin, O. A. Ageev, Investigation into the Memristor Effect in Nanocrystalline ZnO Films // Semiconductors, 2019, Vol. 53, No. 1, pp. 72;77.
Klimin, V.S., Tominov, R.V., Avilov, V.I., Dukhan, D.D., Rezvan, A.A., Zamburg, E.G., Smirnov, V.A., Ageev, O.A Nanoscale profiling and memristor effect of ZnO thin films for RRAM and neuromorphic devices application // Proceedings of SPIE - The International Society for Optical Engineering 2019, 11022,110220E
doi: 10.1117/12.2522322
V I Avilov, V A Smirnov, R V Tominov, N A Sharapov, N A Polupanov, O A Ageev Phase composition investigation of titanium oxide nanostructures obtained by the local anodic oxidation // IOP Conf. Series: Materials Science and Engineering 699 (2019) 012003
V I Avilov, V A Smirnov, R V Tominov, N A Sharapov, A A Avakyan, V V Polyakova, O A Ageev Atomic force microscopy of titanium oxide nanostructures with forming-free resistive switching // IOP Conf. Series: Materials Science and Engineering 699 (2019) 012004
D D Dukhan, R V Tominov, V I Avilov, E G Zamburg, V A Smirnov, O A Ageev Investigation of resistive switching effect in nanocrystalline TiO2 thin film for neuromorphic system manufacturing // Journal of Physics: Conference Series 1400 (2019) 055032
V V Polyakova, I N Kots, V I Avilov, N V Parshina, V A Smirnov Combined scanning probe nanolithography and liquid etching techniques for profiled nanostructures formation // Journal of Physics: Conference Series 1410 (2019) 012047
V A Smirnov, R V Tominov, V I Avilov, A A Avakyan, O A Ageev Forming-free resistive switching in nanocrystalline hafnium oxide films // IOP Conf. Series: Materials Science and Engineering 699 (2019) 012053
R V Tominov, N A Polupanov, V I Avilov, M S Solodovnik, N V Parshina, V A Smirnov, O A Ageev Investigation of resistive switching in gallium oxide nanostructures formed by local anodic oxidation // Journal of Physics: Conference Series 1410 (2019) 012233
Avilov, V.I., Tominov, R.V., Sharapov, N.A., Smirnov, V.A., Ageev, O.A. Local Anodic Oxidation Proceses Influence and Temterature Stability on the Memristive Propherties of Titanium Oxide Nanostructures for ReRAM Development // Moscow Workshop on Electronic and Networking Technologies, MWENT 2020 ; Proceedings, 2020, 9067405
Tominov, R.V., Vakulov, Z.E., Avilov, V.I., Khakhulin, D.A., Fedotov, A.A., Zamburg, E.G., Smirnov, V.A., Ageev, O.A. Synthesis and memristor effect of a forming-free ZnO nanocrystalline films // Volume 10, Issue 5, 2020, 1007
https://www.scopus.com/authid/detail.uri?origin=resultslist&authorId=55532132400
https://app.webofknowledge.com/author/record/35839870
Teaching:
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Mathematical modeling methods
Study of mathematical methods and algorithms, acquisition of practical skills in the development of mathematical models for solving engineering problems of mathematical modeling of structures and technological processes of electronics and microsystem equipment
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Probe nanotechnology
Studying the principles of operation of modern analytical equipment, methods of nanodiagnostics and surface research. Study of diagnostic techniques and analysis of the structure, chemical composition, optical and electrophysical characteristics of micro- and nanosystems. Studying the basics of statistical processing of experimental data. Study of the physical effects underlying modern methods for diagnostics of parameters of materials and nanostructures. Study of modern methods of surface spectroscopy.
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Modeling of technological processes in micro- and nanoelectronics
Formation processes of functional layers of semiconductor devices. Physical foundations of processes and methods of mathematical modeling of these processes. Mastering the methods of mathematical modeling of technological processes using modern personal computers and the mathematical system.
