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Vladimir I. Anisimkin

Name, Surname Vladimir I.Anisimkin
Telephone +79164786053
Fax +7(495)6293678
E-mail anis@cplire.ru
Nationality Russian
Place and Date of birth Chirchick city, Tashkent region, USSR, August 11, 1948
Work experience
Dates (from – to) 1975-present time
Name and address of employer Kotel’nikov Institute of Radio Engineering and Electronics of RAS,

11, Mokhovaya str., bld.7, 125009, Moscow, Russia
Type of business or sector Russian Academy of Science (RAS)
Occupation or position held Post-graduate student (1972-1975), Engineer (1975-1977), Junior Research Scientist (1977-1984), Senior Research Scientist (1984-1990), Leading Research Scientist (1990 – 1996), Principal Research Scientist (1996-present time)
Main activities and responsibilities Solid state acoustics, acousto-electronics, microwave acoustic sensors

 

Dates (from – to) 1999-2006
Name and address of employer Material Research Laboratories, Bldg.77, 195-5 Chung Hsing Rd., Section 4 Chutung, Hsinchu, Taiwan 310, R.O.C/
Type of business or sector Industrial Technology Research Institute
Occupation or position held Visiting professor
Main activities and responsibilities Solid state acoustics, acoustic liquid sensors

 

Dates (from – to) 1987-2003
Name and address of employer Institute of Acoustics O.M.Corbino, Rome, Italy
Type of business or sector CNR
Occupation or position held Visiting researcher under CNR-RAS agreements, NATO Grant LG.920973, NATO Grant HTECH.LG 941439, NATO Senior Guest  Fellowship Programme, INTAS project (International Association for the promotion of co-operation with scientists from New Independent States of the former Soviet Union) – # 01-0257
Main activities and responsibilities Acousto-electronics, acoustic gas sensors

 

Dates (from – to) 1994-1995
Name and address of employer PASTIS-CNRSM, Brindisi, Italy
Type of business or sector CNRSM
Occupation or position held Visiting researcher
Main activities and responsibilities Acoustic gas sensors

 

Education and training

 

Dates (from – to) 1977-1990
Name and type of organisation providing education and training Kotel’nikov Institute of Radio Engineering and Electronics of RAS
Principal subjects  occupational skills covered Physical acoustics, Acoustoelectronics
Title of qualification awarded Doctor of Science
Level in National classification Scientific degree (highest level)

 

Dates (from – to) 1972-1977
Name and type of organisation providing education and training Kotel’nikov Institute of Radio Engineering and Electronics of RAS
Principal subjects  occupational skills covered Solid state acoustics, acoustoelectronics
Title of qualification awarded PhD
Level in National classification Scientific degree

 

 

Dates (from – to) 1966-1972
Name and type of organisation providing education and training M.V.Lomonosov Moscow State University
Principal subjects  occupational skills covered Basis of Physics
Title of qualification awarded Master’s degree in physics
Level in National classification

 

 High education

 

Research activities
Research sectors Physical, chemical, biological acousto-electronic sensors

Acoustic characterization of thin film materials
Recent Scientific Activities Currently, Vladimir I.Anisimkin is elaborating a new, purely acoustic approach, proving new facilities of the acoustic wave sensing. The key idea of the approach consists in harnessing, instead of one sensing property and one type of acoustic wave (as was previously the case) all sensing properties and all acoustic waves which may exist in solids: since up to 14 waves of different types can exist in piezoelectric crystals and each of the waves exhibit its own reaction to external action, so that by selecting the types, quantity, and sensing properties of the waves that probe the medium adjacent to an acoustic device, it is possible either to form the proper set of the sensor responses (for Information Sensing Systems), or to measure several parameters of adjacent gases, liquids, and thin films (for chemistry, biology and industry). Depending on the aggregate state of an agjacent medium to be analyzed and on the number of parameters to be measured, each application of the multi-wave approach require special sets of probing waves, sensing properties of the waves, and material combinations for guiding the waves.

Based on the novel approach some new types of the acoustic waves has been discovered and experimental sensors prototypes have been developed within national and international projects.
Books and Articles 1. И. А. Горбачев, А. В. Смирнов, Е.С. Шамсутдинова, В. В. Кашин, С. Г. Юдин, В. И. Анисимкин, В. В. Колесов, И. Е. КузнецоваИсследование структурных и пьезоэлектрических свойств пленок ПВДФ, полученных методом Ленгмюра–Блоджетт // Известия Российской академии наук. Серия физическая. – 2021. – Т. 85. – № 6. – С. 777-782. – DOI 10.31857/S0367676521060107.

2. Kuznetsova I.E., Smirnov A.V., Anisimkin V.I., Gubin S.P., Signoria M.-A., Francioso L., Kondoh J., Kolesov V.V., Inkjet printing of plate acoustic wave devices, Sensors, 2020, v.20, 334910.3390/s201233492.

3. Anisimkin, V.I., Verona, E., Kuznetsova, A.S. Acoustic wave propagation along AlN on Bi12GeO20 structures, Ultrasonics, 2019, 94, pp.. 314-318, 10.1016/j.ultras.2018.08.0103.

4. Anisimkin, V.I., Verona, E., Kuznetsova, A.S., Osipenko, V.A., Acoustic Wave Propagation Along Piezoelectric Plate Coated with Piezoelectric Films, Acoustical Physics, 2019, 65(2), pp. 171-177, 10.1134/S10637710190200274.

5Kuznetsova I.E.Anisimkin V.I., Kolesov V.V., Kashin V.V., Osipenko V.A.b, Gubin S.P., Tkachev S.V., Verona E., Sun S., Kuznetsova A.S. Sezawa wave acoustic humidity sensor based on graphene oxide sensitive film with enhanced sensitivity, Sensors and Actuators, B: Chemical, 2018, v.272, pp. 236-242, 10.1016/j.snb.2018.05.1585.

6. Anisimkin, V.I., Zemlyanitsin, M.A., An Acoustic Technique for the Analysis of Thermal Processes, Journal of Communications Technology and Electronics, 2018, 63(9), pp. 1089-1092, 10.1134/S10642269180900246.

7. Kuznetsova, I.E., Anisimkin, V.I., Gubin, S.P., Tkachev, S.V., Kolesov, V.V., Kashin, V.V., Zaitsev, B.D., Shikhabudinov, A.M., Verona, E., Sun, S. Super high sensitive plate acoustic wave humidity sensor based on graphene oxide film, Ultrasonics, 2017, 81, pp. 135-139. DOI: 10.1016/j.ultras.2017.06.0197.

8. Verona, E., Anisimkin, V.I., Osipenko, V.A., Voronova, N.V. Quasi longitudinal Lamb acoustic modes along ZnO/Si/ZnO structures, Ultrasonics, 2017, 76, pp. 227-233. DOI: 10.1016/j.ultras.2017.01.0138.

9. Anisimkin, V.I., Pokusaev, B.G., Skladnev, D.A., Sorokin, V.V., Tyupa, D.V. Application of an acoustoelectronic technique to study ordered microstructured disperse systems with biological objects in a hydrogel, Acoustical Physics, 2016, 62 (6), pp. 754-759. DOI: 10.1134/S10637710160600149.

10. Anisimkin, V.I., Caliendo, C., Verona, E. Acoustic Plate Mode sensing in liquids based on free and electrically shorted plate surfaces, Ultrasonics, 2016, 68, pp. 29-32. DOI: 10.1016/j.ultras.2016.02.00710.

11. Anisimkin, V.I. The anisotropy of the basic characteristics of Lamb waves in a (001)-Bi12/SiO20 piezoelectric crystal, 2016, Acoustical Physics, 62 (2), pp. 165-168. DOI: 10.1134/S106377101602001911.

12. Anisimkin, V.I., Pyataikin, I.I., Voronova, N.V., Puchkov, Y.V. Temperature characteristics of acoustic modes in SiO2, LiNbO, LiTaO3, Bi12GeO20, and Bi12Si20 piezoelectric crystal plates, Journal of Communications Technology and Electronics, 2016, 61 (1), pp. 76-81. DOI: 10.1134/S106422691601001012.

13. Kuznetsova, I.E., Zaitsev, B.D., Nedospasov, I.A., Teplykh, A.A., Anisimkin, V.I. Features of propagation and conversion of acoustic waves in plates with nonuniform thickness, Journal of Communications Technology and Electronics, 2015, 60 (12), pp. 1338-1340. DOI: 10.1134/S106422691511009113.

14. Anisimkin, V.I., Voronova, N.V., Kuznetsova, I.E., Pyataikin, I.I.Aspects of using acoustic plate modes of higher orders for acoustoelectronic sensors, Bulletin of the Russian Academy of Sciences: Physics, 2015, 79 (10), pp. 1278-1282. DOI: 10.3103/S106287381510003214.

15. Anisimkin, V.I. Optimization of an integrated lattice of acoustoelectronic gas sensors, Journal of Communications Technology and Electronics, 2015, 60 (9), pp. 1037-1043. DOI: 10.1134/S106422691509001615.

16. Anisimkin, V.I., Anisimkin, I.V., Voronova, N.V., Puchkov, Y.V. General properties of the acoustic plate modes at different temperatures, Ultrasonics, 2015, 62, pp. 46-49. DOI: 10.1016/j.ultras.2015.04.01016.

17. Anisimkin, V.I., Kuznetsova, I.E., Kolesov, V.V., Pyataikin, I.I., Sorokin, V.V., Skladnev, D.A. Plate acoustic wave sensor for detection of small amounts of bacterial cells in micro-litre liquid samples, Ultrasonics, 2015, 62, pp. 156-159. DOI: 10.1016/j.ultras.2015.05.01217.

18. Anisimkin, V.I. Anisotropy of the acoustic plate modes in ST-Quartz and 128°Y-LiNbo3, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, (2014), 61 (1), pp. 120-132. DOI: 10.1109/TUFFC.2014.668978018.

19. Kuznetsova, I.E., Zaitsev, B.D., Anisimkin, V.I., Teplykh, A.A., Shikhabudinov, A.M., Kolesov, V.V., Yakunin, V.G. Noncontact determination of thin films conductance by SH0 plate acoustic waves, Journal of Applied Physics, 2014, 115 (4), 044504,DOI: 10.1063/1.486280719.

20. Anisimkin, V.I. Sensing properties of the anisimkin Jr. acoustic modes in uncoated ST-quartz plates, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 2013, 60 (10), pp. 2204-2207. DOI: 10.1109/TUFFC.2013.281120.

21. Anisimkin, V.I., Voronova, N.V., Zemlyanitsyn, M.A., Kuznetsova, I.E., Pyataikin, I.I. Characteristic features of excitation and propagation of acoustic modes in piezoelectric plates, Journal of Communications Technology and Electronics, (2013), 58 (10), pp. 1004-1010. DOI: 10.1134/S106422691308001921.

22. Anisimkin, V.I. New acoustic plate modes with quasi-linear polarizations22.   IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, (2012), 59 (10), pp. 2363-2367. DOI: 10.1109/TUFFC.2012.246323.

23. Anisimkin, V.I., Voronova, N.V., Zemlyanitsyn, M.A., Pyataikin, I.I., Shikhabudinov, A.M. The structure of acoustic modes in piezoelectric plates with free and metallized surfaces, Journal of Communications Technology and Electronics, (2012), 57 (7), pp. 738-742. DOI: 10.1134/S106422691207001724.

24. Anisimkin, V.I., Pyataikin, I.I., Voronova, N.V. Propagation of the Anisimkin Jr.’ and quasi-longitudinal acoustic plate modes in low-symmetry crystals of arbitrary orientation, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 2012, 59 (4), pp. 806-810. DOI: 10.1109/TUFFC.2012.225825.

25. V.I Anisimkim, M Penza, A Valentini, F Quaranta, L Vasanelli, Detection of combustible gases by means of a ZnO-on-Si surface acoustic wave (SAW) delay line, Sensors and Actuators B, 1995, v.23, #2-3, pp.197-202

 

Additional information Four PhD theses and more than 10 Master’s theses are defended under V.I.Anisimkin’ guidance.

Dr. Anisimkin is an author of about 120 publications in national and international magazines as well as 9 Russian patents.

Since 2003 till present time he is a Chairman of Annual Young Scientists Conference in IRE RAS «Modern problems in radio-engineering and electronics».

In 1998 V.I.Anisimkin was estimated as an outstanding scientist of the Russian Academy of Sciences.

In 1979 and 2004 scientific results of his group were included in the list of the best  results of the RAS.

In 2004 his paper has been estimated as the best in Acoustics Journal (Russia).

V.I.Anisimkin is a member of the Institute of Electrical and Electronics Engineering Society (IEEE).

Patents:

  1. Copyright certificate No. 1535335 A1 of the USSR, IPC H03H 9/145. Counter-pin transducer of surface acoustic waves: No. 4285127/22: Appl. 07/17/1987: publ. 10.01.2000 / V. I. Anisimkin, Yu. V. Gulyaev, I. M. Kotelyansky, M. A. Magomedov.
  2. Patent No. 2393467 C2 Russian Federation, IPC G01N 29/02, G01N 11/00. An acoustic device for determining the viscosity and temperature of a liquid in one area of ​​a liquid sample and a measurement method using such a device: No. 2007134666/28: Appl. September 18, 2007: publ. 06/27/2010 / Sh. Ch. Chen, Ch. V. Hsu, H. Yu. Wen [and others]; applicant INDUSTRIAL TECHNOLOGY RESERCH INSTITUTE, INSTITUTE OF RADIO ENGINEERING AND ELECTRONICS OF THE RUSSIAN ACADEMY OF SCIENCES.
  3. Patent No. 2408881 C1 Russian Federation, IPC G01N 29/02. A method for determining the characteristics of a liquid and a device for its implementation: No. 2009123657/28: Appl. 06/23/2009: publ. 10.01.2011 / I. V. Anisimkin, V. I. Anisimkin, G. N. Galanov [and others]; applicant Open Joint-Stock Company “Research Institute” Elpa “with pilot production” (OJSC “Research Institute” Elpa “).
  4. Patent No. 2408881 C1 Russian Federation, IPC G01N 29/02. A method for determining the characteristics of a liquid and a device for its implementation: No. 2009123657/28: Appl. 06/23/2009: publ. 10.01.2011 / I. V. Anisimkin, V. I. Anisimkin, G. N. Galanov [and others]; applicant Open Joint-Stock Company “Research Institute” Elpa “with pilot production” (OJSC “Research Institute” Elpa “).
  5. Patent No. 2533692 C1 Russian Federation, IPC H03H 9/25, G01N 29/02. Multisensor acoustic array for analytical instruments “electronic nose” and “electronic tongue”: No. 2013137193/08: Appl. 08.08.2013: publ. 20.11.2014 / V. I. Anisimkin, I. V. U. Anisimkin; applicant Federal State Budgetary Institution of Science Institute of Radio Engineering and Electronics. V.A. Kotelnikov of the Russian Academy of Sciences.
  6. Patent No. 2606347 C1 Russian Federation, IPC G01N 27/12. Acoustic calorimetric sensor for signaling changes in the gas composition of enclosed spaces: No. 2015149930: Appl. 20.11.2015: publ. 10.01.2017 / V. I. Anisimkin, E. Verona; applicant Federal State Budgetary Institution of Science Institute of Radio Engineering and Electronics. V.A. Kotelnikov of the Russian Academy of Sciences.
  7. Patent No. 2632575 C1 Russian Federation, IPC G01N 29/02, H01L 41/09. Sensing element for acoustic liquid sensor: No. 2016120232: app. 05/25/2016: publ. 06.10.2017 / V. I. Anisimkin, E. Verona, N. V. Voronova; applicant Federal State Budgetary Institution of Science Institute of Radio Engineering and Electronics. V.A. Kotelnikov of the Russian Academy of Sciences.
  8. Patent No. 2686579 C1 Russian Federation, IPC H01L 21/3065. Method for determining the parameters of plasma etching of plates: No. 2018129894: Appl. 08/16/2018: publ. 04/29/2019 / V. I. Anisimkin, N. V. Voronova, N. V. Voronova, G. N. Galanov; applicant Federal State Budgetary Institution of Science Institute of Radio Engineering and Electronics. V.A. Kotelnikov of the Russian Academy of Sciences.
  9. Patent No. 2712723 C1 Russian Federation, IPC G01N 29/02. Acoustic multichannel analyzer for microsamples of liquid media: No. 2019120565: App. 07/02/2019: publ. 01/31/2020 / V. I. Anisimkin, I. E. Kuznetsova; applicant Federal State Budgetary Institution of Science Institute of Radio Engineering and Electronics. V.A. Kotelnikov of the Russian Academy of Sciences.