Team Members Profile

Tsvetkov Nikolay V.

[su_row][su_column size="1/4"]


Head of Department, D.Sc., Professor

Tel.: +7 (812) 428-43-82, email: n.tsvetkov at spbu.ru [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"]
  • Self-assembly in polymer systems.
  • Molecular hydrodynamics, optics and electrooptics of biological and synthetic polymer and dendrimer solutions.
  • The structure and properties of the polyelectrolyte polymer-colloid complexes.
Funding (current):
  • Polymer based nanostructure polyelectrolytes and surfactants: conformation, structure and physical properties in solution (RFBR)
  • Self-organizing multi-component structures in solutions and melts (SPbSU)
  • Nanostructures based on DNA and synthetic polymers (SPbSU)
  • Functional system based on metallic and synthetic biopolymers: structure and physical properties in solution (RSF)
Main publications:
  1. Tsvetkov, N.V., Lezov, A.A., Vlasov, P.S., Lezova, A.A., Samokhvalova, S.A., Lebedeva, E.V., Polushina, G.E. Copolymers of diallyldimethylammonium chloride and 2-(diallyl(methyl) ammonio) acetate: Effect of composition and ionic strength on conformational properties // European Polymer Journal, 2016, 84, pp. 268-278. DOI: 10.1016/j.eurpolymj.2016.09.026
  2. Andreeva L.N., Nekrasova T.N., Nazarova O.V., Bezrukova M.A., Zolotova J.I., Lebedeva E.V., Tsvetkov N.V., Panarin E.F. Polyelectrolyte behavior of copolymers of 2-deoxy-2-methacrylamido-D-glucose with cationic comonomers in water and dimethylsulfoxide solutions // European Polymer Journal, 2016, V. 83, pp. 22-34, DOI: 10.1016/j.eurpolymj.2016.07.027
  3. Tsvetkov N.V.; Mikhailova M.E.; Mikusheva N.G.; Lezov A.A.; Gubarev A.S.; Lebedeva E.V.; Perevyazko I.; Zorin I.M.; Bilibin A.Y. Molecular and conformational properties of comb-like polymers with ionically bound side chains studied in organic solvent // Int. J. Polym. Anal. Charact., 2016, pp. 1-8 DOI: 10.1080/1023666X.2016.1222480
  4. A.V. Yakimansky, S.V. Bushin, M.A. Bezrukova, A.A. Lezov, A.S. Gubarev, E.V. Lebedeva, L.I. Akhmadeeva, A.N. Podseval’nikova, N.V. Tsvetkov, G. Koeckelberghs, A. Persoons Hydrodynamic properties and conformation of poly(3-hexylthiophene) in dilute solutions // Journal of Polymer Science Part B: Polymer Physics, 2016, V. 54, Is. 9, p. 853–933, DOI: 10.1002/polb.23986
  5. Tsvetkov N.V., Mikhailova M.E., Lebedeva E.V., Lezov A.A., Rogozhin V.B., Rotinyan T.A. Influence of the strength of polarizing electric field on free relaxation of electric birefringence in poly(butyl-isocyanate) solutions // Chemical Physics Letters, 2016, V. 648, p. 137-142, DOI: 10.1016/j.cplett.2016.02.017
  6. Tsvetkov N.V., Mikusheva N.G., Lezov A.A., Gubarev A.S., Mikhailova M.E., Podseval’Nikova A.N., Akhmadeeva L.I., Lebedeva E.V., Zorin I.M., Shcherbinina T.M., Bilibin A.Y. Molecular, conformational, and optical characteristics of poly(cetylammonium-2-acrylamido-2-methylpropanesulfonate) obtained by micellar polymerization // European Polymer Journal, 2016, V. 75, 1 February 2016, p. 251 – 263, doi:10.1016/j.eurpolymj.2015.12.022
  7. N.V. Tsvetkov , P.A. Fetin , A.A. Lezov , A.S. Gubarev, L.I. Achmadeeva, A.A. Lezova, I.M. Zorin , A.Yu. Bilibin. Colloid solution of surfactant monomers and polyelectrolyte: Polymerization and properties of the resulting interpolyelectrolyte complexes. Journal of Molecular Liquids 211 (2015) 239–246.
  8. N. Nekrasova, L. N. Andreeva, A. A. Lezov, M. A. Bezrukova, O. V. Nazarova, Yu. I. Zolotova, N. V. Tsvetkov, and E. F. Panarin. Optical and Hydrodynamic Properties of Solutions of Copolymers of N,N- Dimethylaminoethyl Methacrylate and 2-Deoxy-2-methacrylamido-D-glucose That Contain Silver Particles. Polymer Science, Ser. A, 2015, Vol. 57, No. 2, pp. 103–114
  9. Tsvetkov, N.V., Lebedeva, E.V., Lezov, A.A., Podseval'Nikova, A.N., Akhmadeeva, L.I., Zorin, I.M., Bilibin, A.Yu. Macromolecules of poly-(12-acryloylaminododecanoic acid) in organic solvent: Synthesis and molecular characteristics (2014) Polymer (United Kingdom), 55 (7), pp. 1716-1723
  10. Tsvetkov, N.V., Lebedeva, E.V., Lezov, A.A., Podseval’nikova, A.N., Akhmadeeva, L.I., Mikhailova, M.E., Zorin, I.M., Makarov, I.A., Bilibin, A.Y. Conformational, optical, electro-optical, and dynamic characteristics of cross-linked poly(N-acryloyl-11-aminoundecanoic acid) (2014) Colloid and Polymer Science, 292 (10), pp. 2727-2733.
  11. Tsvetkov, N.V., Bushin, S.V., Bezrukova, M.A., Astapenko, E.P., Mikusheva, N.G., Lebedeva, E.V., Podseval'nikova, A.N., Khripunov, A.K.Conformational and optical properties of macromolecules of some aliphatic-substituted cellulose esters(2013) Cellulose, 20 (3), pp. 1057-1071.
  12. Bushin, S.V., Tsvetkov, N.V., Bezrukova, M.A., Astapenko, E.P., Lebedeva, E.V., Podseval'nikova, A.N., Ivanova, V.O., Pavlov, A.V., Khripunov, A.K. Hydrodynamic, conformational, and optical properties of cellulose tridecanoate molecules in solutions (2012) Russian Journal of Applied Chemistry, 85 (6), pp. 963-968.
  13. Tsvetkov, N.V., Andreeva, L.N., Lebedeva, E.V., Strelina, I.A., Lezov, A.A., Podseval'Nikova, A.N., Mikusheva, N.G., Ivanova, V.O., Makarov, I.A., Zorin, I.M., Bilibin, A.Yu. Optical, dynamic, and electro-optical properties of poly(N-acryloyl-11- aminoundecanoic acid) in solutions (2011) Polymer Science - Series A, 53 (8), pp. 666-677.
  14. Tsvetkov, N.V., Andreeva, L.N., Zorin, I.M., Bushin, S.V., Lebedeva, E.V., Strelina, I.A., Bezrukova, M.A., Lezov, A.A., Makarov, I.A., Bilibin, A.Yu. Synthesis, hydrodynamic, and conformational properties of poly(N-acryloyl-11-aminoundecanoic acid) in solutions (2011) Polymer Science - Series A, 53 (5), pp. 355-363.
  15. Tsvetkov, N.V., Bushin, S.V., Bezrukova, M.A., Astapenko, E.P., Ivanova, V.O., Mikusheva, N.G., Lebedeva, E.V., Podseval'nikova, A.N., Slavyanov, V.I., Khripunov, A.K.Conformational, optical, and electrooptical properties of cellulose pelargonates in solutions(2011) Russian Journal of Applied Chemistry, 84 (1), pp. 156-163.
  16. Tsvetkov, N.V., Andreeva, L.N., Bushin, S.V., Strelina, I.A., Bezrukova, M.A., Girbasova, N.V., Bilibin, A.Yu.Structure and properties of macromolecules with side dendrons based on L-aspartic acid(2010) Polymer Science - Series C, 52 (1), pp. 3-16.
  17. Kuchkina, N.V., Laptinskaya, T.V., Tsvetkov, N.V., Rusanov, A.L., Izumrudov, V.A., Shifrina, Z.B.Formation of soluble complexes of cationic polypyridylphenylene dendrimers with DNA(2010) Polymer Science - Series C, 52 (1), pp. 105-110.
  18. Tsvetkov, N.V., Andreeva, L.N., Bushin, S.V., Alyab'Eva, V.P., Strelina, I.A., Ivanova, V.O., Lebedeva, E.V., Matveeva, N.G., Girbasova, N.V., Bilibin, A.Y.Synthesis and molecular properties of polymers with asymmetrically substituted side dendrons based on L-aspartic acid(2010) Polymer Science - Series A, 52 (7), pp. 684-692.
  19. Tsvetkov, N.V., Andreeva, L.N., Filippov, S.K., Bushin, S.V., Bezrukova, M.A., Marchenko, I.A., Strelina, I.A., Alyab'Eva, V.P., Girbasova, N.V., Bilibin, A.Yu.Hydrodynamic, optical, and electrooptical properties of macromolecules of third-generation cylindrical dendrimers in chloroform and dichloroacetic acid (2010) Polymer Science - Series A, 52 (1), pp. 8-18.
  20. Dadivanyan, A.K., Grishchenko, A.E., Tsvetkov, N.V., Ryumtsev, E.I. Short-range orientational order in polymer-solvent systems (2008) Polymer Science - Series B, 50 (9-10), pp. 271-298.
  21. Tsvetkov, N.V., Andreeva, L.N., Bushin, S.V., Girbasova, N.V., Bilibin, A.Yu. Maxwell and Kerr effects in solutions of linear dendritic macromolecules (2008) Polymer Science - Series A, 50 (2), pp. 119-128.
  22. Bushin, S.V., Andreeva, L.N., Girbasova, N.V., Bezrukova, M.A., Alyab'eva, V.P., Tsvetkov, N.V., Bilibin, A.Y. Hydrodynamic and conformational properties of poly(acrylate) molecules with side dendrons based on L-aspartic acid (2007) Polymer Science - Series A, 49 (7), pp. 843-850.
  23. Tsvetkov, N.V., Andreeva, L.N., Belyaeva, E.V., Bushin, S.V., Ivanova, V.O., Kudryavtseva, T.M., Mukhina, I.V., Girbasova, N.V., Egorova, G.G., Bilibin, A.Yu. Hydrodynamic, conformational, and electrooptical properties of cylindrical dendrimers with dendron ionic addition in solutions(2006) Polymer Science - Series A, 48 (5), pp. 520-526.
  24. Tsvetkov, N.V., Filippov, S.K., Kudryavtseva, T.M., Ivanova, V.O., Shifrina, Z.B., Averina, M.S., Firsova, N.V., Rusanov, A.L. Hydrodynamic properties of rigid pyridine-containing poly(phenylene) dendrimers in solutions (2006) Polymer Science - Series A, 48 (4), pp. 450-455.
  25. Bushin, S.V., Tsvetkov, N.V., Andreeva, L.N., Belyaeva, E.V., Ivanova, V.O., Bezrukova, M.A., Girbasova, N.V., Bilibin, A.Yu.Conformational, dynamic, and electrooptical properties of macromolecules of L-aspartic acid-based cylindrical dendrimers: Effect of solvent(2005) Vysokomolekularnye Soedineniya. Ser.A Ser.B Ser.C - Kratkie Soobshcheniya, 47 (2), p. 324.
  26. Andreeva, L.N., Girbasova, N.V., Belyaeva, E.V., Bushin, S.V., Ivanova, V.O., Kudryavtseva, T.M., Bilibin, A.Yu., Tsvetkov, N.V.Linear dendronized polymers: Optical, dynamic, and conformational properties in different solvents
  27. (2005) Vysokomolekularnye Soedineniya. Ser.A Ser.B Ser.C - Kratkie Soobshcheniya, 47 (8), p. 1527.
  28. Andreeva, L.N., Girbasova, N.V., Belyaeva, E.V., Bushin, S.V., Ivanova, V.O., Kudryavtseva, T.M., Bilibin, A.Yu., Tsvetkov, N.V.Linear dendronized polymers: Optical, dynamic, and conformational properties in different solvents(2005) Polymer Science - Series A, 47 (8), pp. 875-884.
  29. Bushin, S.V., Tsvetkov, N.V., Andreeva, L.N., Belyaeva, E.V., Ivanova, V.O., Bezrukova, M.A., Girbasova, N.V., Bilibin, A.Yu.Conformational, dynamic, and electrooptical properties of macromolecules of L-aspartic acid-based cylindrical dendrimers: Effect of solvent(2005) Polymer Science - Series A, 47 (2), pp. 175-182.
  30. Tsvetkov, N.V., Bushin, S.V., Ivanova, V.O., Bezrukova, M.A., Astapenko, E.P., Kuz'mina, O.A., Shifrina, Z.B., Rusanov, A.L., Averina, M.S., Bulycheva, E.G.Hydrodynamic, conformational, and electrooptical properties of phenylated poly(phenylene) macromolecules in solutions(2004) Vysokomolekularnye Soedineniya. Ser.A Ser.B Ser.C - Kratkie Soobshcheniya, 46 (10), pp. 1695-1703.
  31. Tsvetkov, N.V., Bushin, S.V., Ivanova, V.O., Bezrukova, M.A., Astapenko, E.P., Kuz'mina, O.A., Shifrina, Z.B., Rusanov, A.L., Averina, M.S., Bulycheva, E.G.Hydrodynamic, conformational, and electrooptical properties of phenylated poly(phenylene) macromolecules in solutions(2004) Polymer Science - Series A, 46 (10), pp. 1034-1040.
  32. Andreeva, L.N., Bushin, S.V., Tsvetkov, N.V., Belyaeva, E.V., Il'in, V.V., Bilibin, A.Yu., Pospiech, D., Friedel, P.Conformational properties of macromolecules of heterocyclic polyester imides in dilute dichloroacetic acid solutions(2004) Journal of Polymer Science, Part B: Polymer Physics, 42 (1), pp. 12-24.
  33. Tsvetkov, N.V., Ivanova, V.O., Ksenofontov, I.V., Girbasova, N.V., Bilibin, A.Yu.Large-scale reorientation of cylindrical dendrimers in electric fields(2003) Polymer Science - Series A, 45 (2), pp. 142-148.
  34. Tsvetkov, N.V., Ivanova, V.O., Ksenofontov, I.V., Girbasova, N.V., Bilibin, A.Yu.Large-scale reorientation of cylindrical dendrimers in electric fields(2003) Vysokomolekularnye Soedineniya. Ser.A Ser.B Ser.C - Kratkie Soobshcheniya, 45 (2), pp. 253-261.
  35. Bushin, S.V., Astapenko, E.P., Belyaeva, E.V., Bezrukova, M.A., Kurakina, V.O., Kuz'mina, O.A., Ksenofontov, I.V., Tsvetkov, N.V., Ten'kovtsev, A.V.Hydrodynamic, optical, and electrooptical properties of an aromatic polyester containing azobiphenyl fragments in the backbone(2003) Polymer Science - Series A, 45 (1), pp. 39-45
  36. Bushin, S.V., Astapenko, E.P., Belyaeva, E.V., Bezrukova, M.A., Kurakina, V.O., Kuz'mina, O.A., Ksenofontov, I.V., Tsvetkov, N.V., Ten'kovtsev, A.V.Hydrodynamic, optical, and electrooptical properties of an aromatic polyester containing azobiphenyl fragments in the backbone(2003) Vysokomolekularnye Soedineniya. Ser.A Ser.B Ser.C - Kratkie Soobshcheniya, 45 (1), pp. 54-62.
  37. Rotinyan, T.A., Lyulin, S.V., Lezov, A.V., Tsvetkov, N.V., Neelov, I.M., Yazikov, S.B., Ryumtsev, E.I., Gotlib, Yu.Ya.Electric birefringence of poly(butyl isocyanate) solutions in strong electric fields(2002) Vysokomolekularnye Soedineniya. Ser.A Ser.B Ser.C - Kratkie Soobshcheniya, 44 (10), pp. 1786-1790.
  38. Tsvetkov, N.V., Ksenofontov, I.V., Kurakina, V.O., Andreeva, L.N., Bilibin, A.Yu.Electrooptical properties of main-chain mesogenic polymers in nematic state and dilute solutions(2002) Molecular Crystals and Liquid Crystals Science and Technology Section A: Molecular Crystals and Liquid Crystals, 373, pp. 227-236.
  39. Rotinyan, T.A., Lyulin, S.V., Lezov, A.V., Tsvetkov, N.V., Neelov, I.M., Yazikov, S.B., Ryumtsev, E.I., Gotlib, Yu.Ya.Electric birefringence of poly(butyl isocyanate) solutions in strong electric fields(2002) Polymer Science - Series A, 44 (10), pp. 1061-1064.
  40. Bushin, S.V., Astapenko, E.P., Andreeva, L.N., Belyaeva, E.V., Ksenofontov, I.V., Kurakina, V.O., Girbasova, N.V., Bilibin, A.Yu., Tsvetkov, N.V. Hydrodynamic, optical, and electrooptical properties of an alkylenearomatic polyester in solutions (2002) Polymer Science - Series A, 44 (4), pp. 431-438.
  41. Andreeva, L.N., Bushin, S.V., Belyaeva, E.V., Bezrukova, M.A., Averina, M.S., Keshtov, M.L., Shifrina, Z.B., Rusanov, A.L., Tsvetkov, N.V. Hydrodynamic, optical, and conformational properties of phenylated poly(phenylene) (2002) Polymer Science - Series A, 44 (2), pp. 141-147.
[/restab] [restab title="Teaching" ] Lectures:
  1. «Hydrodynamics of nanoparticles and macromolecules in solution» (Masters profile "Physics of Functional Nanomaterials ")
  2. «Optical and electro-optical properties of nanoparticles and macromolecules in solution» (Masters profile "Physics of Functional Nanomaterials ")
  3. «Molecular hydrodynamics and optics of polymers», Part 1 (Masters Profile "Molecular Biophysics")
  4. «Molecular hydrodynamics and optics of polymers», Part 2 (Masters Profile "Molecular Biophysics")
Scientific supervision: PhD thesis:
  • «Light scattering solutions of ionic polymers». Lezov Alexey А. (2012)
  • «Electro-optical and dynamic properties of molecules, semi-rigid comb polymers». Lebedeva Elena V. (2011)
  • «Electro-optical and dynamic properties of macromolecules with bulky lateral substituents in the  solutions». Vera Ivanova O. (2003)
  • «Effect of solvent polarity and chain structure on electro-optical properties of mesogenic polymers». Ksenofontov Igor V. (1999) 
Master thesis (since 2011 year):
  • Podsevalnikova A.N.  «Electro-dynamic and conformational properties of polymerized and cross-linked polymerized micelles in solution». (2011)
  • Pavlov A.V.«Conformational and optical properties of macromolecules in solution of cellulose tridecanoate».  (2012)
  • Akhmadeeva L.I.«Conformational, optical and hydrodynamic properties of poly (12-acryloylamino-dodecanoic acid) in solution». (2013)
  • Gorbenko A.I.«Conformation of the polyzwitterions molecule  in water environments» (2013)
At present research is carried out: PhD students:
  • Akhmadeeva Liliya I. ( 2 years)
  • Mikusheva Nina G. (3 years)
  • Podsevalnikova Anna N. (2 years)
[/restab] [restab title="Academic activity" ] A dissertation councils membership:
  • D 212.232.33 by specialty 02.00.06 – macromolecular compounds (physico-mathematical sciences);
  • D 002.229.01 by specialty 02.00.06 –macromolecular compounds (physico-mathematical sciences)
An academic councils membership:
  • Member of the Scientific Council of the Physical Faculty of St. Petersburg State University
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: J-7975-2013
ScopusID: 35516816300
ORCID: 0000-0003-2666-6073
SPIN-код: 8312-1522
[/su_table] [/restab] [/restabs] [/su_column][/su_row]

Voitylov Vladislav V.

[su_row][su_column size="1/4"] voit


D.Sc., Professor

Email: vojtylov at gmail.com

[/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"]
  • Molecular optics
  • Physico-chemistry of of nanodispersed systems
  • Electrooptics
Main publications:
  1. S.A. Klemeshev, M.P. Petrov, V.I. Rolich, A.A. Trusov, A.V. Voitylov, V.V. Vojtylov Static, dynamic and electric light scattering by aqueous colloids of diamond // Diamond and Related Materials, 2016. — Vol. 69, — P. 177-182
  2. M.P. Petrov, V.N. Shilov, A.A. Trusov, A.V. Voitylov, V.V. Vojtylov Electro-optic research of polarizability dispersion in aqueous polydisperse suspensions of nanodiamonds // Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2016. — Vol. 506, — P. 40-49
  3. Войтылов А. В., Петров М. П., Трусов А. А., Войтылов В. В., Клемешев С. А. Автоматизация метода слабых синусоидальных полей с синусоидальной модуляцией амплитуды для электрооптических исследований дисперсных систем // Естественные и математические науки в современном мире, 2015. — № 35. — С. 56-63
  4. Electro-optical effects in disperse systems in strong electric fields of arbitrary shape, S.A. Klemeshev, M.P. Petrov, A.K. Shalygin, A.A. Trusov, A.V. Voitylov, V.V. Vojtylov. // Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2014, — v. 456, — p. 114-119.
  5. The Effect of the Size of Particles on Optical and Electrooptical Properties of Colloids. V. V. Vojtylov, M. P. Petrov, A. A. Spartakov, and A. A. Trusov. // Optics & Spectroscopy, 2013 — v.114 — iss. 4 — p. 630
  6. Light Scattering by Diamond and Graphite Nanodisperse Systems with Their Particles Orientationally Ordered in an Electric Field. V. V. Vojtylov, S. A. Klemeshev, M. P. Petrov, and A. A. Trusov. // Optics & Spectroscopy, 2013 — v.114 — i. 3 — p. 432
  7. Electrooptical Properties of Aqueous Suspensions of Nickel Hydrosilicate Nanotubes. A. V. Voitylov, V. V. Vojtylov, I. S. Dolgov, S. A. Klemeshev, E. N. Korytkova, T. P. Maslennikova, M. P. Petrov, and L. N. Pivovarova. // Optics & Spectroscopy, 2012, — v. 112, — i. 1, — p. 64
  8. Stability of Tungsten(VI) Oxide Dispersions in Electrolyte Solutions. Yu. Yu. Petrov, S. Yu. Avvakumova, M. P. Sidorova, L. E. Ermakova, V. V. Voitylov, and A. V. Voitylov // colloid journal, 2011, — v. 73, — iss. 6, — p. 834
  9. Analysis of Polydispersity of Macromolecular and Nanodisperse Systems by Electrooptical Methods. L. K. Babadzhanyants, A. V. Voitylov, V. V. Voitylov, and A. A. Trusov // Polymer Scince C, 2010, — v. 52, — iss. 1, — p. 93
  10. Specific Features of the Electrooptical Effect and Light Scattering of Water Dispersed System of Carbon Nanotubes. V. V. Voitylov, P. I. Ivashchenko, A. A. Trusov and I. V. Altukhov. // Optics & Spectroscopy, 2009, — v. 107, — i. 5, — p.717
  11. Electrooptic Properties of Aqueous Suspensions of Nanotubes Based on Magnesium Hydrosilicate. V. V. Voitylov, A. V. Voitylov, E. N. Korytkova, V. P. Romanov, S. V. Ul’yanov and V. V. Gusarov. // Optics & Spectroscopy, 2009, — v. 106, — i. 1, — p. 50
  12. Structure of aqueous dispersions of Mg3Si2O5(OH)4 nanotubes. V. V. Voitylov, A. V. Voitylov, E. N. Korytkova, V. P. Romanov, S. V. Ul’yanov, V. V. Gusarov. // Russian Journal of Applied Chemistry, 2008, — v. 81, — i. 2, — p. 207
  13. Magnetooptical Phenomena in Disperse Systems in Uniform Linearly Oriented Magnetic Fields. A. V. Voitylov, V. V. Voitylov, A. A. Spartakov and A. A. Trusov. // Colloid journal, 2007, — v. 69, — i. 2, — p. 144.
[/restab] [restab title="Teaching" ] Lectures:
  1. «Molecular optics», bachelor, Physics, 4th year
  2. «Electrooptics solutions», bachelor, Physics, 4th year
  3. «The physics of nano-dispersed systems», Master, "Molecular biophysics", "Functional Nanomaterials Physics"
Scientific supervision: PhD thesis:
  1. «The study of light scattering disperse systems in the electric field». Petrov M.P. (2014)
Master thesis:
  1. «Optical and electro-optical studies of medical preparations containing magnetite nanoparticles». Vezo O. (2015)
  2. «Study of optical and electro-optical properties of diamond nano-dispersed systems». Koshlan T.V. (2015)
  3. «Optical and electro-optical properties of goethite and nanotubes in aqueous solutions». Dolgov I.S. (2011)
  4. «The study of bacteria and bacterial spores by methods of electro-optics». Shalygin A.K. (2013)
  5. «Scattering anisotropy of aqueous dispersions in the electric field». Petrov M.P. (2010)
  6. «Electro-optical and magneto-optical properties of carbon nanotube solutions». Altukhov I.V. (2009)
Bachelors diploma:
  1. «The study of biologically active systems on the basis of magnetite nanoparticles by physical methods». Parr M.A. (2014)
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: M-6354-2013
ScopusID: 6602640994
ORCID: 0000-0003-1932-370X
SPIN-код: 7796-4819
[/su_table] [/restab] [/restabs] [/su_column][/su_row]

Voroncov-Velyaminov Pavel N.

[su_row][su_column size="1/4"]voron


D.Sc., Professor

Email: voron.wgroup at gmail.com

[/su_column]

[su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"]
  • Computer modeling of polymers
  • Modeling in the framework of quantum statistics
Funding (current): RFBR (1997-2013), Grant for staff support of scientific research conducted under the direction of St. Petersburg State University leading scientists

Main publications:

  1. Diffusivities of species in ionic micellar solutions: Molecular dynamic simulation A. Volkov, B. B. Divinskiy, P.N. Vorontsov-Velyaminov, A. K. Shchekin Colloids and Surfaces A: Physicochemical and Engineering Aspects (2014)
  2. Reference hypernetted chain theory for ferrofluid bilayer: Distribution functions compared with Monte Carlo. A. Polyakov, P. N. Vorontsov-Velyaminov. Journal of Chemical Physics 141, 084109 (2014)
  3. Stepwise conformation transitions for a semi-stiff ring polymer confined in a conical trap induced by the increasing external field or by cone’s opening angle variation. A.Y. Siretskiy, C. Elvingson,  P. Vorontsov-Velyaminov. Nanosystems: Physics, Chemistry, Mathematics, 2013, 4 (2), P. 225–235
  4. Calculation of Canonical Properties of a Quantum System by Path Integral Numerical Methods A. Voznesenskiy∗ and P. N. Vorontsov-Velyaminov Contrib. Plasma Phys. 53, No. X, 1 – 6 (2013) / DOI 10.1002/ctpp.201200092
  5. Энтропическое моделирование полимеров: цепь вблизи стенки, полиэлектролиты, полимерные звезды. П. Н. Воронцов_Вельяминов, А. А. Юрченко, М. А. Антюхова, И. А. Силантьева, А. Ю. Антипина. Высокомолекулярные соединения, Серия C, 2013, том 55, № 7, с. 920–932
  6. Behavior of a Polyion at the Charged Wall of the Same Sign in Presence of Counterions and of a System of two Equal Uncharged Polymer chains. Study by Monte Carlo Method Yu. Antipina,* M. A. Antyukhova, A. A. Yurchenko, P. N. Vorontsov-Velyaminov Macromol. Symp. 2012, v. 317-318, p. 91–102
  7. Thermodynamic Properties of Star Shaped Polymers Investigated with Wang-Landau Monte Carlo Simulations I. A. Silantyeva, P. N. Vorontsov-Velyaminov.  Macromol. Symp. 2012, v. 317-318, p. 267–275
  8. Method for sampling compact configurations for semistiff polymers A.Y.   Siretskiy, C. Elvingson,  P. N. Vorontsov-Velyaminov, M. O. Khan. Phys. Rev. E 84, 016702 (2011)
  9. Two-Dimensional Wang–Landau Algorithm for Osmotic Pressure Calculations in a Polyelectrolyte–Membrane System A. Volkov, P. N. Vorontsov-Velyaminov, A. P. Lyubartsev Macromol. Theory  Simul. (2011) p. 496-509.
  10. Исследование решёточных моделeй полимерных цепей и звёзд методом Монте-Карло с использованием алгоритма Ванга—Ландау. И. А.Силантьева, П.Н.Воронцов-Вельяминов.  Вестник СПбГУ. Сер. 4. 2011. Вып. 4, с. 212-219.
  11. Расчет плотности состояний и термических свойств полимерных цепей и звезд на решетке методом Монте-Карло с использованием алгоритма Ванга–Ландау. И.А. Силантьева, П.Н. Воронцов-Вельяминов. Вычислительные методы и программирование. 2011. Т. 12, с  397-408
  12. Исследование взаимодействия полимера с поверхностью методом энтропического моделирования. А. А. Юрченко, М.А. Антюхова, П. Н. Воронцов-Вельяминов. Журнал структурной химии. (2011). Т. 52, No  6,  с. 1217 – 1224
  13. Моделирование полимеров методом Монте-Карло с использованием алгоритма Ванга-Ландау. П. Н. Воронцов_Вельяминов, Н. А. Волков, А. А. Юрченко, А. П. Любарцев. Высокомолекулярные cоединения, Серия А, 2010, том 52, № 7, с. 1133–1151
  14. Centroid molecular dynamics: Comparison with exact results for model systems E. A. Polyakov, A. P. Lyubartsev, P. N. Vorontsov-Velyaminov. Journal of Chemical Physics 133, 194103-1-14 (2010)
  15. Physics of non-ideal plasmas, Sept. 13-18, 2009. Book of abstracts, 1.3, pp.  18-19. Contrib. Plasma Phys. 50, No. 1, 37 – 41 (2010) / DOI 10.1002/ctpp.201010008
  16. Calculation of canonical properties and excited states by path integral numerical methods. Vorontsov-Velyaminov P.N., Voznesenskiy M.A., Polyakov E.A.,  Lyubartsev A. P. Международная конференция, Черноголовка, Россия, 13-18 сент. 2009.
  17. Тестирование метода стохастического положительного P-представления на модели одномерного бозе-газа с дельта-отталкиванием. Поляков Е.А., Воронцов-Вельяминов П.Н., Любарцев А.П. Вестник Санкт-Петербургского ун-та (2009) сер. 4, вып. 4, сc. 391-405. 2010
  18. Path-integral–expanded-ensemble Monte Carlo method in treatment of the sign problem for fermions. A. Voznesenskiy, P. N. Vorontsov-Velyaminov, A. P. Lyubartsev Phys.Rev. E 80, 066702-1-10 (2009)
  19. Расчеты равновесных свойств квантовых систем с кулоновским взаимодействием методом Монте-Карло в расширенном ансамбле. Вознесенский М.А., Воронцов-Вельяминов П.Н., Любарцев А.П. Вестник Санкт-Петербургского университета (2009) сер. 4, вып. 2, сc. 3-16.
  20. Стохастическое положительное P-распределение в задачах квантовой статистики. Моделирование одномерного бозе-газа с дельта-отталкиванием. Поляков Е.А., Воронцов-Вельяминов П.Н., Любарцев А.П. Вычислительные методы и программирование (2009)  т. 10,  раздел 1, сc. 170-183 (PDF)
  21. Расчеты равновесных свойств квантовых систем методом Монте-Карло в расширенном ансамбле. Вознесенский М.А., Воронцов-Вельяминов П.Н., Любарцев А.П. Вычислительные методы и программирование (2008)  т. 9,  раздел 1, сc. 170-183   (PDF)
  22. Квантовый газ во внешнем поле при конечных температурах. Точное выражение для плотности и возбужденных состояний. Поляков Е.А., Воронцов-Вельяминов П.Н. Вычислительные методы и программирование (2007)  т. 8,  раздел 1, сc. 334-351 (PDF)
  23. Моделирование н-алканов и полиглицинов методом Монте-Карло с использованием алгоритма Ванга-Ландау А. А. Юрченко, П. Н. Воронцов-Вельяминов.Вестник Санкт-Петербургского университета (2007) сер. 4, вып. 3, сc. 13-22.
  24. Изучение равновесных свойств гибкого решеточного полиэлектролита методом Монте-Карло с помощью алгоритма Ванга-Ландау Н.А. Волков, П.Н. Воронцов-Вельяминов,  А.П.Любарцев.Вестник Санкт-Петербургского университета (2007) сер. 4, вып. 3, сc. 3-12.
  25. Entropic sampling of flexible polyelectrolytes within the Wang-Landau algorithm N.A. Volkov P.N, Vorontsov-Velyaminov, A. P. Lyubartsev Physical Review E 75 016705 (2007)
  26. Free energy calculations of spherical and cylindrical micelles using Monte Carlo expanded ensemble method S.V.  Burov, P.N. Vorontsov-Velyaminov, E. M. Piotrovskaya Molecular Physics, Vol. 104, Nos. 22–24, 20 Nov.–20 Dec. 2006, 3675–3679
  27. New version of Monte Carlo expanded ensemble method for precise calculations of free energy difference. V. Burov, P.N. Vorontsov-Velyaminov, E. M. Piotrovskaya Molecular Simulation, Vol. 32, No. 6, 15 May 2006, 437–442
  28. Энтропическое моделирование полимерных цепей с фиксированным валентным углом А.А. Юрченко П.Н. Воронцов-Вельяминов. Вычислительные методы и программирование. ISSN 1726-3522 (PDF)
  29. Энтропическое моделирование гибкого полиэлектролита при помощи алгоритма Ванга-Ландау.  Волков Н.А. Любарцев А.П. Воронцов-Вельяминов П.Н. Вычислительные методы и программирование.  ISSN 1726-3522 , с. 300-309. (PDF)
  30. Path integral method in quantum statistics problems: Generalized ensemble Monte Carlo and density unctional approach. P.N. Vorontsov-Velyaminov, M.A. Voznesenski, D.V. Malakhov, A.P. Lyubartsev, A.V.Broukhno.  J.Phys. A:Math.,Gen. 39 (2006) 4711-16.
  31. Entropic sampling of free and ring polymer chains N.A.Volkov, A.A. Yurchenko, P.N. Vorontsov-Velyaminov. Macromol.Theory Simul. 14 (2005) 491-504.
  32. Polymer density functional approach to efficient evaluationof path integrals. A.V.Broukhno,  P.N.Vorontsov-Velyaminov, H.Bohr. Phys.Rev.E 72 (2005) 046703.
  33. Entropic sampling of simple polymer models within Wang-Landau algorithm. P.N. Vorontsov-Velyaminov, N.A.Volkov, A.A. Yurchenko. J.Phys. A:Math.,Gen. 37 (2004) 1573.
  34. Entropic sampling in path integral Monte Carlo method. P.N. Vorontsov-Velyaminov, A.P.Lyubartsev J. Phys. A: Math., Gen. 36 (2003) 685.Generalized ensembles Monte Carlo methods in chemical physics.  A.P.Lyubartsev, P.N. Vorontsov-Velyaminov. Recent Res. Devel Chem. Phys. 4 (2003) 63-78 ISBN:81-7895-095-2.
  35. Simulation of few electron systems by combined path integral Monte Carlo method. P.N.Vorontsov-Velyaminov, R.I Gorbunov. Contrib. Plasma Phys. 42 (2002) 1,27-30.
  36. Depletion and bridging forces in polymer systems: Monte Carlo simulations at constant chemical potential. A.V.Broukhno, Bo Jonsson, T. Akesson,  P.N.Vorontsov-Velyaminov,  J.Chem.Phys. 113(13) (2000) 5493-5503.
  37. Trapped mesoscopic quantum gas in a magnetic field.  P.N.Vorontsov-Velyaminov, R.I Gorbunov,  S.D. Ivanov.  Phys. A: Math., Gen. 33 (2000) 1857.
[/restab] [restab title="Teaching" ] Lectures:
  • Methods of mathematical experiment in the theory of a molecular systems (Molecular Modeling). (Master, "Molecular biophysics", "Functional Nanomaterials Physics")
  • Methods of mathematical experiment (Bachelor, 3 year,  AMF)

Scientific supervision:

PhD thesis: (from 2007):

  1. «The study of equilibrium properties of lattice models uncharged polyelectrolyte polymer and the Monte Carlo method with the use of Wang-Landau algorithm». Volkov NA (2007)
  2. «Investigation of equilibrium characteristics of the polymer chains by entropic modeling». Yurchenko AA (2007)
  3. «Thermodynamics of small systems, modeling of liquid clusters and phase equilibrium in nanosystems». Pavlov VA (2008)
  4. «Modeling of equilibrium properties of quantum systems by the Monte Carlo method in the extended ensembles». Voznesensky MA (2009)
  5. «The study of equilibrium and dynamic properties of quantum systems, computational methods».  Polyakov EA (2010)
  6. «Research of thermal and structural properties of the lattice models of polymer chains and stars Monte-Carlo methods». Silanteva IA (2013)

Bachelors diploma:

  1. «Calculation of excess entropy freely jointed polymer chain monomers with the finite size with respect to the phantom chain by using Monte Carlo method and the Wang-Landau algorithm» Zarubin, GS (2012)
  2. «The study of models of polymer chains by the Monte-Carlo on different grids» Nazarov PY (2014)
[/restab] [restab title="Academic activity" ]

A dissertation councils membership:

  • D 212.232.33 by specialty 02.00.06 – high molecular compounds (physico-mathematical sciences);
An academic councils membership:
  • Member of the Scientific Council of the Physical Faculty of St. Petersburg State University
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: M-9118-2013
ScopusID: 6603565718
ORCID: 0000-0003-3431-4895
SPIN-код: 1627-7014
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Kasyanenko Nina A.

[su_row][su_column size="1/4"]na1


D.Sc., Professor

Email: n.kasyanenko@spbu.ru

[/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"]

Conformational and phase transitions of DNA during interaction with a biologically active compounds, supramolecular structures based on the Nucleic Acids

  • DNA complexes with biologically active compounds
  • Gene vectors based on interpolyelectrolyte complexes
  • DNA-based nanostructures
  • DNA-peptide interaction
Funding (current): RFBR, SPbSU, Grant for staff support of scientific research conducted under the direction of St. Petersburg State University leading scientists Main publications
  1. Model system for multifunctional delivery nanoplatforms based on DNA-polymer complexes containing silver nanoparticles and fluorescent dye. Kasyanenko N., Bakulev V., Perevyazko I., Nekrasova T., Nazarova O., Slita A., Zolotova Yu., Panarin E. / Journal of Biotechnology. 2016.Volume 236, Pages 78–87. Doi: 10.1016/j.jbiotec.2016.08.010
  2. Similarities and differences in the influence of polycations and oligomers on DNA conformation and packaging. Kasyanenko N., Dribinsky B. / International Journal of Biological Macromolecules. 2016. Том: 86,   Стр.: 216-223 DOI: 10.1016/j.ijbiomac.2016.01.044
  3. DNA modified with metal nanoparticles: preparation and characterization of ordered metal-dna nanostructures in a solution and on a substrate. Kasyanenko N., Varshavskii M., Ikonnikov E., Tolstyko E., Belykh R., Sokolov P., Bakulev V., Rolich V., Lopatko K. / Journal of Nanomaterials. V. 2016, 3237250.  Doi: 10.1155/2016/3237250
  4. Tetrapeptide KEDW interacts with dna and regulates gene expression. Khavinson V.Kh, Tendler S.M., Kasyanenko N.A., Tarnovskaya S.I., Linkova N.S., Ashapkin V.V., Yakutseni P.P., Vanyushin B.F. /American journal of biomedical sciences, изд. New World Publishing International (Sarasota, Fla., United States), том 7, № 3, с. 156-169.
  5. Conformational and phase transitions in DNA - photosensitive surfactant solutions: experiment and modeling. Kasyanenko N., Lysyakova L., Ramazanov R., Titov E., Alexeev G., Lezov A., Unksov I., Nesterenko A., Yaroshevich I. /Biopolymers. 2015. Т. 103. № 2. С. 109-122.
  6. Adsorption of 1,10-phenanthroline-2,9-dithiol on gold and silicon surfaces. Sokolov P., Kasyanenko N., Demidov V., Vedeneeva L. /Journal of Physical Chemistry C. 2015. Т. 119. № 43. С. 24358-24363.
  7. Peptide regulation of gene expression and protein synthesis in bronchial epithelium. Tendler S.M., Khavinson V.Kh., Vanyushin B.F., Ashapkin V.V., Kasyanenko N.A., Kvetnoy I.M., Linkova N.S., Polyakova V.O., Basharina V.S., Bernadotte A .Lung. 2014. Т. 192. № 5. С. 781-791.
  8. Properties of multicomponent system DNA-phtalocyanine metallocomplexes-surfactants. Alekseev G., Kasyanenko N. /Journal of Physics: Conference Series. 2014. Т. 572. № 1. С. 012011.
  9. DNA interaction with cis- and trans- isomers of photosensitive surfactant. Unksov I.N., Kasyanenko N.A. Journal of Physics: Conference Series. 2014. Т. 572. № 1. С. 012014.
  10. Charge-controlled fixation of DNA molecules on silicon surface and electro-physical properties of Au-DNA-Si interface. Bazlov N.V., Vyvenko O.F., Sokolov P.A., Kas'yanenko N.A., Petrov Y.V. /Applied Surface Science. 2013. Т. 267. С. 224-228.
  11. Fluorescent silver nanoclusters in condensed DNA. Volkov I.L., Ramazanov R.R., Ubyivovk E.V., Rolich V.I., Kononov A.I., Kasyanenko N.A. /Chemphyschem : a European journal of chemical physics and physical chemistry. 2013. Т. 14. № 15. С. 3543-3550.
  12. Reaction with DNA and pharmacologic activity of 1,10-phenanthroline and electron-rich 1,10-phenanthrocyanine complexes of d-elements. Demidov V.N., Antonov V.S., Pakhomova T.B., Simanova S.A., Kas'yanenko N.A., Volkov I.L., Sokolov P.A. /Russian Journal of General Chemistry. 2012. Т. 82. № 3. С. 602-620.
  13. DNA-polymer complexes for gene therapy. Kasyanenko N.A., Lysyakova L.A., Dribinskii B.A., Zolotova Yu.I., Nazarova O.V., Panarin E.F. /Polymer Science. Series C. 2012. Т. 54. № 1. С. 57-68.
  14. Metallization of DNA on silicon surface Puchkova A.O., Sokolov P., Kasyanenko N.A., Petrov Y.V. / Journal of Nanoparticle Research. 2011. Т. 13. № 9. С. 3633-3641.
  15. Investigation of the radioprotective properties of some tea polyphenols Ershov D.S., Paston S.V., Kasyanenko N.A., Kartsova L.A., Alekseeva A.V., Ganzha O.V. Structural Chemistry. 2011. Т. 22. № 2. С. 475-482.
  16. Metallization of DNA on the surface. Puchkova A.O., Sokolov P.A., Kasyanenko N.A. Journal of Structural Chemistry. 2011. Т. 52. № 6. С. 1195-1201
  17. Effect of the oligopeptide length on the DNA condensation process in aqueous-salt solutions. Dribinskii B.A., Kasyanenko N.A. Journal of Structural Chemistry. 2011. Т. 52. № 6. С. 1202-1208.
  18. DNA compaction by azobenzene-containing surfactant Zakrevskyy Y., Kopyshev A., Lomadze N., Santer S., Morozova E., Lysyakova L., Kasyanenko N. /Physical Review E - Statistical, Nonlinear, and Soft Matter Physics. 2011. Т. 84. № 2. С. 021909.
  19. DNA immobilization on n-type silicon surface and electrophysical properties of Au-DNA-(n-Si) structures. Sokolov P.A., Bazlov N.V., Puchkova A.O., Vyvenko O.F., Kasyanenko N.A. Protection of Metals and Physical Chemistry of Surfaces. 2011. Т. 47. № 5. С. 566-571
  20. Light-induced noncovalent fixation of DNA and synthetic polyions on the surface of silicon single crystals. Volkov I.L., Bazlov N.V., Bondarenko A.S., Vyvenko O.F., Kas'yanenko N.A. /Journal of Structural Chemistry. 2010. Т. 50. № 5. С. 962-969.
  21. Effects of palladium acido complexes [Ln]M[PdX4] on the conformation of DNA in vitro. Kas'yanenko N.A., Levykina E.V., Erofeeva O.S., Ivanova N.A., Efimenko I.A. Journal of Structural Chemistry. 2010. Т. 50. № 5. С. 996-1006.
  22.  Conformational changes of a DNA molecule induced by metal complexes formed in solution Kasyanenko N.A., Mukhin D.A., Perevyazko I.Yu. Polymer Science. Series C. 2010. Т. 52. № 1. С. 122-133.
  23. First ruthenium organometallic complex of antibacterial agent ofloxacin. Crystal structure and interactions with DNA. Turel I., Kljun J., Perdih F., Morozova E., Bakulev V., Kasyanenko N., Byl J.A.W., Osheroff N. /Inorganic Chemistry. 2010. Т. 49. № 23. С. 10750-10752.
  24.  Optical properties and orientational order of deoxyribonucleic acid molecules at interfaces. Grishchenko A.E., Kononov A.I., Naumova L.B., Dribinskii B.A., KasYanenko N.A./Polymer Science. Series A. 2010. Т. 52. № 1. С. 49-54.
  25.  Influence of divalent metal ions on DNA conformational transitions in water-ethanol solution. Kasyanenko, N. A.; Perevyazko, I. Y.; Blokova, M. I.; Zyryanova, R. M. Biophysics 2008, 53, (2), 229-234
  26. DNA complexes with polycations useful for delivery of DNA into cells. Kasyanenko N.A., Zakharova N.B., Mukhin D.A., Slita A.V., Nazarova O.V., Leonteva E.A., Panarin E.F. Biophysics. 2008. Т. 53. № 1. С. 31-37.
  27. Electrophoretic determination of catechins and examination of their complexing with organic and inorganic compounds. Kartsova L.A., KasYanenko N.A., Alekseeva A.V., Ganzha O.V., Paston S.V., Ershov D.S. Russian Journal of Applied Chemistry. 2008. Т. 81. № 10. С. 1758-1763.
  28. Destabilization and stabilization of poly(a) • poly(u) structure by platinum(ii) compounds. Bogdanov A.A., Kasyanenko N.A., Ivanov Yu.V., Surzhik M.A., Timkovskii A.L., Potekhin S.A., Feofanov S.A., Khusainova R.S., Yakoblev K.I. /Biophysics. 2008. Т. 53. № 5. С. 341-343.
  29. DNA self-assembling nanostructures induced by trivalent ions and polycations Kasyanenko N., Afanasieva D. NATO Science for Peace and Security Series C: Environmental Security. 2008. С. 29-38.
  30. DNA-polycation complexes effect of polycation structure on physico-chemical and biological properties. Slita A.V., Eropkina E.M., Sirotkin A.K., Smirnova T.D., Kiselev O.I., Kasyanenko N.A., Nazarova O.V., Gavrilova I.I., Panarin E.F. /Journal of Biotechnology. 2007. Т. 127. № 4. С. 679-693.
  31. DNA interaction with synthetic polymers in solution. Kasyanenko N., Afanasieva D., Dribinsky B., Mukhin D., Nazarova O., Panarin E. Structural Chemistry. 2007. Т. 18. № 4. С. 519-525.
  32. DNA packaging in water solutions induced by polylysine and spermidine. Kasyanenko N.A., Dribinskii B.A./ Journal of Structural Chemistry. 2007. Т. 48. № 4. С. 729-733.
  33. Conformational changes of DNA molecules in interactions with bioactive compounds. I. Influence of metal ions on the conformation of DNA molecules in solution. Kas'yanenko N.A. Journal of Structural Chemistry. 2006. Т. 47. № 1. С. 163-169
  34. Conformational changes of DNA molecules in interactions with bioactive compounds. II. DNA complexes with coordination compounds of cobalt and ruthenium. Kasyanenko N.A., Afanasieva D.A. /Journal of Structural Chemistry. 2006. Т. 47. № 1. С. 170-177.
  35. Peculiarities of interactions between the DNA molecule and different isomers and modifications of binuclear coordination compounds of platinum(II) Bogdanov A.A., Kosmotynskaya Yu.V., Kasyanenko N.A., Yakovlev K.I. Journal of Structural Chemistry. 2006. Т. 47. № 1. С. 178-185.
  36. Effect of dimethyl sulfoxide on DNA conformation in solution. Kosmotynskaya Yu.V., Bogdanov A.A., Kas'yanenko N.A. /Russian Journal of Physical Chemistry A. 2005. Т. 79. № S.1.
  37. Study of DNA complexation with platinum coordination compounds Kasyanenko N.A., Bogdanov A.A., Kononov A.I., Kosmotynskaya Yu.V., Abramchuk S.S., Blagodatskikh I.V., Sitnikova N.L., Khokhlov A.R. A.R., Gallyamov M.O. /Polymer Science. Series A. 2003. Т. 45. № 10. С. 960-968.
  38. Comparison of DNA complexation with antitumor agent cis-DDP and binuclear bivalent platinum compound containing pyrazine Kasyanenko N.A., Aia E.E.F., Bogdanov A.A. Molecular Biology. 2002. Т. 36. Issue 4, pp 594–600
  39.  Complexes of DNA with trivalent metal ions in presence of manganese ions Kas'ianenko N.A., Plotnikova L.V., Zanina A.V., Anderzhanov A.S., Defrenne S. Биофизика. 2002. Т. 47. № 3. С. 433-437.
  40. Interactions of a DNA molecule with coordination compounds of platinum and cobalt in solutions Kas'ianenko N.A., Bogdanov A.A., Defrenne C. Биофизика. 2002. Т. 47. № 3. С. 449-452.
  41. DNA molecule complexes with polyallylamine in solution. Kas'yanenko N.A., Obukhova O.N., Nazarova O.V., Panarin E.F. Russian Journal of Physical Chemistry A. 2002. Т. 76. № 11. С. 1837-1842.
  42. DNA complexes with divalent platinum compounds in the presence of dimethylsulfoxide Russian Journal of Physical Chemistry A. 2002. Т. 76. № 11. С. 1843-1848.  Версии: Журнал физической химии. 2002. Т. 76. С. 2043.
  43. Interaction of protonated DNA with trans-dichlorodiammineplatinum(II). Kasyanenko N.A., Prokhorova S.A., Haya Enriquez E.F., Sudakova S.S., Frisman E.V., Dyachenko S.A., Smorygo N.A., Ivin B.A. /Colloids and Surfaces A: Physicochemical and Engineering Aspects. 1999. Т. 148. № 1-2. С. 121-128.
  44. DNA interaction with complex ions in solution. Kasyanenko N.A., Zanina A.V., Nazarova O.V., Panarin E.F. /Langmuir : the ACS journal of surfaces and colloids. 1999. Т. 15. № 23. С. 7912-7917.
  45. Study of the DNA packing caused by multivalent ions Kasyanenko N. A., Nazarova O., Panarin E., Zanina A.. In: Polyelectrolytes. Ed. Ichiro Noda, Etsuo Kokufuta,Yamada Sci. Foundation, Osaka, Japan,(1999) p.153-155
  46. Investigation of DNA complexes with iron ions in solution Kasyanenko N., Arikainen N., Frisman E. /Biophysical Chemistry. 1998. Т. 70. № 2. С. 93-100.
  47. Study of the DNA packing caused by charged compounds of different nature in solution. Kasyanenko N.A., Zanina A.V., Plotnikova L.V., Simonenkov A.A., Defrenne S., Nazarova O.V., Panarin E.F./Macromolecular Symposia. 1998. Т. 136. С. 25-31
  48. Interaction of DNA with coordination compounds of bivalent platinum. III. platinum compounds with two pyrimidine ligands Kas'yanenko N.A., Nikolenko O.V., Prokhorova S.A., Frisman E.V., D'yachenko S.A., Smorygo N.A., Ivin B.A. Molecular Biology. 1997. Т. 31. № 2. С. 240-244.
  49. Interaction of DNA with coordination-compounds of divalent platinum 1. Effect of cis-diaminodichloroplatinum on DNA molecular-parameters in solution. Kasyanenko N.A., Valueva S.V., Smorygo N.A., D'yachenko S.A., Frisman E.V. Молекулярная биология. 1995. Т. 29. Вып. 2.С. 200-203
  50.  Interaction of DNA with coordination-compounds of bivalent platinum. 2. Effect of ligands localized in first coordination sphere. Kasyanenko N.A., Karymov M.A., D'yachenko S.A., Smorygo N.A., Frisman E.V. Молекулярная биология. 1995. Т. 29. Вып С. 340-347
  51. Hydrodynamic and optical behaviour of DNA molecule in a solutions of large ionic strength frisman E.V., Kasyanenko N.A. Молекулярная биология. 1990. Том 24, вып. 2. С. 251-259.
  52. Investigation of the molecular mechanism of the interaction of DNA with divalent metal-ions. Kas'yanenko N.A., Dyakonova N.E., Frisman É.V. Molecular Biology. 1989. Т. 23.  Вып. 4  Стр.: 765-771.
  53. Effect of Mn-2+ and Mg-2+ ions on the conformation of the DNA molecule.  Kosyanenko N.A., Selman-Khusein Sosa G., Uverskii V.N., Frisman E.V. Молекулярная биология. 1987. Т. 21. С. 117 -122.
  54.  Influence of ionic-strength and pH of the medium on polymer flocculants conformatioN. Kasyanenko NA, Frisman EV, Klenin SI, Bykova YN, Kochetkova IS. Vysokomolekulyarnye soedineniya seriya A.1987. Том: 29  Выпуск: 6  Стр.: 1129-1135.
  55. Study of the molecular characteristics of polymer flocculants in solutions of varying ionic-strength. Kasyanenko NA, Semenova OY, Klenin SI, Bykova YN, Medvedev GP, Avetisyan PK, Frisman EV, vysokomolekulyarnye soedineniya.1985.  Seriya A. Том: 27  Выпуск: 5  Стр.: 1073-1078
  56. Study of influence of pH media on conformation of DNA molecule. Kas’yanenko N.A., Bartoshevich S.F., Frisman E.V. Molecular Biology. 1985. Т. 19. 1136-1142

[/restab]

[restab title="Teaching" ]

Lectures:

  1. «Modern problems of biophysics» - Bachelor, 1st year (AMP), 4 year (Physics)
  2. «Introduction to Molecular Biophysics» - Bachelor's 3 course (Physics)
  3. «Physical chemistry of polymers» - Bachelor's, 4 year (AMP)
  4. «Hydrodynamic methods of research of biopolymers», bachelor, 4 year (AMP)
  5. «The conformation of biopolymers in solution» (Master's program "Molecular Biophysics")
  6. «Methods of study of biological macromolecules» (Master's program "Molecular Biophysics")
  7. «Fundamentals of physics of biological macromolecules» (Graduate, Experimental Physics)
Scientific supervision:

PhD thesis:

  1. «Investigation of the large ionic strength effect on DNA molecule conformation in solution and development of method of its covalent fixation on a solid surface». Karymov Mikhail (1997)
  2. «Study of DNA interaction with binuclear platinum coordination compounds in solution». Haya Enrikes Ervin Fernando, Peru (2002)
  3. «The structural changing of DNA molecule induced by metal ions and metal-organic compounds». Bogdanov Alexey A. (2004)
  4. «Impact of solvent composition and gamma irradiation on interaction of DNA with platinum coordination compounds». Kosmotynskaya Yu. V. (2006)
  5. «DNA condensation induced by polycations and multicharged ions in solution». Dribinsky Boris A. (2012)
  6. «Analysis of DNA conformation changing after complexation with coordination compounds of platinum group metal».  Morozova Elena V. (2012)
  7. «Creating and study of DNA stabilized luminescent silver clusters». Volkov Ivan L. (2014)
  8. «Development of ways of DNA fixation on different surfaces and study the properties of the formed structures». Sokolov Petr A. (2014)
  9. «The conformational change of the DNA molecule in the interaction with platinum coordination compounds and silver». Zhang Qiushi, the People's Republic of China (2015)

Mastes thesis (since 2011)

  1. Sokolov P «Fixation of DNA on a silicon surface of n-type. Electrical properties of Si/DNA/Au interface» (2011)
  2. Lysyakova L «The compaction of DNA in solution induced by polycations and photosensitive amphiphilic ligands» (2012)
  3. Puchkova S «The metallization of DNA in solution and on the surface» (2012)
  4. Reveguk Z «Study of the interaction of new oxalate complexes of palladium (II) with a DNA molecule in vitro»
  5. Belyh R «The interaction of DNA with ions and aluminum nanoparticles in solution» (2012)
  6. Bozhkova E «The study of the interaction of DNA with coordination compounds of iron with phenanthroline ligands» (2012)
  7. Borisova I «Complexes of macromolecular DNA with platinum coordination compounds containing amino acids» (2013)
  8. Titov E «DNA conformational transitions caused by its interaction with the light-sensitive surfactant in the solution» (2013)
  9.  Alekseev G «Study of DNA complexes with biologically active compounds in the solution» (2013)
  10. Warsawsky M «Properties of systems formed with the DNA molecule and reduced silver» (2014)
  11. Kozhenkov P «The complexation of DNA with ruthenium and cobalt coordination compounds» (2014)
  12. Fironov A «The study of the interaction of gold nanoparticles with polymers» (2014)
  13. Tolstyko E «DNA in solution and the metallization on a substrate using silver nanoparticles and silver compounds» (2015)
  14. Unksov I «Ways of delivery of small interfering RNA and DNA in the cell-based surfactant» (2016)

Bachelor thesis (since 2011):

  1. Titov A «Influence of salt concentration on the spectral properties of silver and gold nanoparticles in aqueous solution» (2011)
  2. Titov E «Interaction of DNA with photoactive surfactant» (2011)
  3. Taranenko I «Study of the interaction of the new oxalate complex palladium (II) a DNA molecule in vitro» (2012)
  4. Samsonov N «The study of the interaction of aluminum nanoparticles with DNA» (2012)
  5. Fironov A «Surface plasmon resonance method and its application to the study of solutions of DNA ligands» (2012)
  6. Warsawsky M «The formation of silver nanoparticles and investigation of their interaction with polyions in solution and on surfaces» (2012)
  7. Kozhenkov P «Study of the effect of ruthenium on the conformation of DNA molecules in solution» (2012)
  8. Krohmalyuk R «The study of the interaction of teotropine with  DNA molecule in vitro» (2013)
  9. Vashukevich E «DNA Complexes with short peptides» (2014)
  10. Simanov G «Study of the formation of silver nanoparticles to DNA solutions containing surfactants» (2014)
  11. Tolstyko E «Formation and study of DNA structures containing nanoparticles» (2014)
  12. Polshkov V «Gene vectors containing nanoparticles» (2014)
  13. Unksov I «DNA conformational changes caused by interaction with light sensitive compounds» (2014)
  14. Boldyrev A «The interaction of short peptides KE and KEDW DNA» (2015)
  15. Dokshokova L «DNA interaction with platinum and silver compounds in solution» (2015)
  16. Ikonnikov E «The metallization of DNA in solution and on surfaces»  (2015)
  17. Pavlenova K «The interaction of DNA with the coordination compound of platinum with a complex ligand»  (2016)
  18. Tikhomirov R «The interaction of europium coordination compound with  DNA molecule in vitro» (2016)

At present research is carried out:

PhD students:

  • Michael Warsawsky (PhD student 3 years)
  • Ekaterina Morozova (PhD student 3 years)
  • Unksov Ivan (PhD student 1 years )

Master students:

  • Michael Osolodkov
  • Dokshokova Lolita
  • Alexander Boldyrev
  • Christina Pevlenova
  • Tikhomirov Roman
[/restab] [restab title="Academic activity" ] A dissertation councils membership:
  • D 212.232.33 by speciality 02.00.06 – macromolecular compounds (physico-mathematical sciences);
  • D 212.232.10 by speciality 03.01.02 – biophysics (biological sciences)
  • D 212.232.28 by speciality  02.00.10 – bioorganic chemistry (chemical sciences)
An academic councils membership:
  • Member of the Scientific Council of the Physical Faculty of St. Petersburg State University
  • Member of the Scientific Council of the St. Petersburg State University
Member of the educational commissions:
  • Member of the Educational Committee of the Academic Council of St. Petersburg State University
  • Member of Educational-methodical commission of the Faculty of Physics
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: M-8608-2013
ScopusID: 6602085797
ORCID: 0000-0003-3018-2063
SPIN-код: 5746-6931 
[/su_table] [/restab][/restabs] [/su_column][/su_row]  

Kovshik Aleksandr P.

[su_row][su_column size="1/4"]


D.Sc., Professor [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"] Physics of liquid crystals, optical, dielectric and magnetic properties. Funding (current): 11.37.161.2014 «Synthesis, phase transformations, electro and magneto-optical properties of liquid crystal lanthanide complexes with high luminescence quantum yield.» Main publications:
  1. L. A. Dobrun, A. S. Sakhatskii, A. P. Kovshik, E. I. Ryumtsev,A. A. Knyazev, and Yu. G. Galyametdinov «Dielectric Properties of an Ytterbium Based Nematic Liquid Crystal Complex», JETP Letters, v.99, №3, p.133-135, 2014.

  2. A.A. Bogdanov, S.P. Denisov, A.P. Kovshik, A.A.Karetnikov, V.P. Romanov, D. Brukkel «The effect of the cell phone radiation on a freely suspended liquid-crystal film», Наносистемы: Физика, Химия, Математика, v.5, №6, p.782-788, 2014.
  3. E.V. Aksenova, B.B. Divinskii, A.P. Kovshik, A.A.Karetnikov, N.A.Karetnikov, E.V. Kryukov, V.P. Romanov «Peculiarities of light propagation in chiral liquid crystal cells in an external electric field», Journal of Experimental and Theoretical Physics, v.118, №2, p.323-332, 2014.

  4. E.S. Krainyukov, A.P. Kovshik, S.A. Kovshik, A.A.Knyazev, Yu.G. Galyametdinov, E.I. Ryumtsev «Optical Anisotropy of Liquid Crystal Lanthanide Complexes», Optics and Spectroscopy, v.110, №1, p.56-61, 2014.

  5. N. Yevlampieva, D.R. Tur, A. Kovshik, E. Rjumtsev «Electro-optical properties, polarity and chain rigidity of poly(dialoxyphosphazene)s with variable side-chain length», Journal of Inorganic and Organometallic Polymers and Materials, v.22,№5, p. 1157-1167, 2012.

  6. S.E. Emelin, V.L. Bychkov, , A.M. Astafiev, A.L. Pirozersk, A.P. Kovshik «Plasma Combustion Nature of Artificial Ball Lightning», IEEE Transactions on Plasma Science, v.40,№12, p. 3162-3165, 2012.

  7. A.A. Karetnikov, N.A. Karetnikov, A.P. Kovshik, E.I. Rjumtsev, E.V. Aksenova, E.V. Kryukov, V.P. Romanov «Local Dynamics of Director Reorientation under Electric Field in Helical LC Structure», Molecular Crystals and Liquid Crystals, v.561,№1, p. 97-107, 2012.

[/restab] [restab title="Teaching" ] Lectures:
  1. "Fundamentals of physics of liquid crystals" 4 year students
  2. "Liquid crystals in the information display devices" 1st year master students
Scientific supervision: PhD thesis: Karetnikov Nikita A. "Effect of electric field on the refraction of light in a liquid crystal with an inhomogeneous distribution of the director," 2010. Master thesis (from 2011 year):
  • Manzyuk Anastasia O. "Dielectric properties of composite systems", 2012
  • I.I.Smirnov "Dielectric properties metalo-mezogenic complexes based on rare earth metals", 2012
At present research is carried out: PhD students:
  • Kraynyuk Eugenii S. "The refraction of light in the liquid crystal helical structures with different boundary conditions."
  • Sakhatsky Alexander "Dielectric spectroscopy of liquid crystal complexes."
  • Kalinkin Alexei Alexandrovich "The optical and dielectric anisotropy mesogens lanthanides."
[/restab] [restab title="Author IDs"]   [su_table]
ResearcherID: J-8583-2013
ScopusID: 6701333555
ORCID: 0000-0003-1326-2184
SPIN-код: 2370-6507
[/su_table] [/restab] [/restabs] [/su_column][/su_row]

Rjumtsev Evgeny I.

[su_row][su_column size="1/4"]


D.Sc., Professor [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"] Molecular physics of liquid crystals and polymers Funding (current): 11.37.145.2014 «Simulation of magnetic, electrical and optical properties of liquid crystals with abnormal magnetic characteristics" Main publications:
  1. Определение размеров, формы и гибкости макромолекул с использованием эффекта Керра «Современные физические методы исследования полимеров», «Химия», Москва 1982г.
  2. А.К. Дадиванян, А.Е. Грищенко, Е.И. Рюмцев, Н.В. Цветков «Ближний ориентационный порядок в системах полимер-растворитель», обзор, Журнал «высокомолекулярные соединения», 2008, т. 50, №10, С.1870-1904.
  3. V.N.Tsvetkov, I.W. Shtenikova, E.I. Rjumtsev «Liquid crystallins order in polymers edit», Intramolecular orientational order and properties of polymer molecules in solution. P. 44-99, Academic press New York San Francisco, London, 1978.
[/restab] [restab title="Teaching" ] Lectures:
  • "Introduction to physics of polymers and liquid crystals II» (Bachelor's 3 course, Physics)
  • "The structure and properties of liquid crystals of macromolecules, colloid systems. (1st Master's course of the department of nuclear physics research methods, profile of the neutron and synchrotron physics).
  • Physical chemistry of polymers. (1st year Master's course profile "Functional Nanomaterials Physics")
  • Solutions of high molecular compounds (2 and 5 year Master's course specialists of the Department of Macromolecular Chemistry, Faculty of Chemistry)
[/restab] [restab title="Academic activity" ] A dissertation councils membership:
  • D 212.232.33 by specialty 02.00.06 – macromolecular compounds (physico-mathematical sciences);
[/restab] [restab title="Author IDs"]   [su_table]
ResearcherID: J-9765-2013
ScopusID: 7005786843
ORCID: 0000-0003-3171-3217
SPIN-код: 8943-7101
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Trusov Anatoly A.

[su_row][su_column size="1/4"]300px-Trusov_aa D.Sc., Professor "Honorary Professor of St. Petersburg State University" email: a.trusov at spbu.ru [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"]

  • Electrooptics of colloidal solutions
  • Physics of nanodispersed systems
Main publications:
  1. S.A. Klemeshev, M.P. Petrov, V.I. Rolich, A.A. Trusov, A.V. Voitylov, V.V. Vojtylov Static, dynamic and electric light scattering by aqueous colloids of diamond // Diamond and Related Materials, 2016. — Vol. 69, — P. 177-182
  2. M.P. Petrov, V.N. Shilov, A.A. Trusov, A.V. Voitylov, V.V. Vojtylov Electro-optic research of polarizability dispersion in aqueous polydisperse suspensions of nanodiamonds // Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2016. — Vol. 506, — P. 40-49
  3. Войтылов А. В., Петров М. П., Трусов А. А., Войтылов В. В., Клемешев С. А. Автоматизация метода слабых синусоидальных полей с синусоидальной модуляцией амплитуды для электрооптических исследований дисперсных систем // Естественные и математические науки в современном мире, 2015. — № 35. — С. 56-63
  4. Electro-optical effects in disperse systems in strong electric fields of arbitrary shape, S.A. Klemeshev, M.P. Petrov, A.K. Shalygin, A.A. Trusov, A.V. Voitylov, V.V. Vojtylov. // Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2014, — v. 456, — p. 114-119.
  5. The Effect of the Size of Particles on Optical and Electrooptical Properties of Colloids. V. V. Vojtylov, M. P. Petrov, A. A. Spartakov, and A. A. Trusov. // Optics & Spectroscopy, 2013 — v.114 — iss. 4 — p. 630,
  6. Light Scattering by Diamond and Graphite Nanodisperse Systems with Their Particles Orientationally Ordered in an Electric Field. V. V. Vojtylov, S. A. Klemeshev, M. P. Petrov, and A. A. Trusov. // Optics & Spectroscopy, 2013 — v.114 — i. 3 — p. 432,
  7. Analysis of Polydispersity of Macromolecular and Nanodisperse Systems by Electrooptical Methods. L. K. Babadzhanyants, A. V. Voitylov, V. V. Voitylov, and A. A. Trusov // Polymer Scince C, 2010, — v. 52, — iss. 1, — p. 93,
  8. Specific Features of the Electrooptical Effect and Light Scattering of Water Dispersed System of Carbon Nanotubes. V. V. Voitylov, P. I. Ivashchenko, A. A. Trusov and I. V. Altukhov. // Optics & Spectroscopy, 2009, — v. 107, — i. 5, — p.717,
  9. Magnetooptical Phenomena in Disperse Systems in Uniform Linearly Oriented Magnetic Fields. A. V. Voitylov, V. V. Voitylov, A. A. Spartakov and A. A. Trusov. // Colloid journal, 2007, — v. 69, — i. 2, — p. 144.

[/restab]

[restab title="Teaching" ] Lectures:
  1. «Introduction to nanobiophysics» - Bachelor's (AMP), 3 year bachelors
  2. «Macromolecules statistics» - Bachelor (Physics), 4 year bachelors
Scientific supervision: PhD thesis:
  • «Simulation of DNA complexes with biologically active compounds». Ramazanov R R (2013)
  • «Electro-optical and magneto-optical studies of distributions of electric, magnetic and geometric parameters of particles in disperse systems» Voitylov A.V. (2008).
Master thesis: 
  • «Low-frequency dynamics of DNA in the spectra of Brillouin light scattering». Dmitriev A. (2013)
Bachelor thesis: 
  • «Investigation of the behavior of hypersonic speed in BSA at thermal denaturation».  Dmitriev A. (2011)
  • «Low-frequency dynamics of bromgeksin».  Vashchenkov VE (2013)
  • «Macromolecules detector in the ice» Sumbatyan DA (2014)
[/restab] [restab title="Academic activity" ] A dissertation councils membership:
  • D 212.232.33 by specialty 02.00.06 – macromolecular compounds (physico-mathematical sciences);
  • D 212.232.10 by specialty 03.01.02 – biophysics (biological sciences)
An academic councils membership:
  • Member of the Scientific Council of the Physical Faculty of St. Petersburg State University
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: M-6177-2013
ScopusID: 7005088110
ORCID: 0000-0002-8024-8270
SPIN-код: 1015-8972
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Gurtovenko Andrey A.

[su_row][su_column size="1/4"]


DSc, PhD, Professor SPbSU, Professor RAS e-mail: a.gurtovenko на biosimu.org web: http://biosimu.org тел. +7(812)328-56-01 [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"] Computer simulation of biomolecular systems (biomembrane, DNA delivery vectors) Main publications:
  1. A. Yu. Kostritskii, D. A. Tolmachev, N. V. Lukasheva, and A. A. Gurtovenko Molecular-Level Insight into the Interaction of Phospholipid Bilayers with Cellulose Langmuir 33, 12793-12803 (2017).
  2. A. Polley, A. Orlowski, R. Danne, A. A. Gurtovenko, J. Bernardino de la Serna, C. Eggeling, S. J. Davis, T. Rog, and I. Vattulainen Glycosylation and Lipids Working in Concert Direct CD2 Ectodomain Orientation and Presentation Journal of Physical Chemistry Letters 8, 1060-1066 (2017).
  3. S. G. Falkovich, H. Martinez-Seara, A. M. Nesterenko, I. Vattulainen, and A. A. Gurtovenko, What Can We Learn about Cholesterol's Transmembrane Distribution Based on Cholesterol-Induced Changes in Membrane Dipole Potential? Journal of Physical Chemistry Letters 7, 4585-4590 (2016).
  4. A. Yu. Kostritskii, D. A. Kondinskaia, A. M. Nesterenko, A. A. Gurtovenko, Adsorption of Synthetic Cationic Polymers on Model Phospholipid Membranes: Insight from Atomic-Scale Molecular Dynamics Simulations, Langmuir 32, 10402-10414 (2016).
  5. D. A. Kondinskaia, A. Yu. Kostritskii, A. M. Nesterenko, A. Yu. Antipina, A. A. Gurtovenko, Atomic-Scale Molecular Dynamics Simulations of DNA-Polycation Complexes: Two Distinct Binding Patterns, Journal of Physical Chemistry B 120, 6546-6554 (2016).
  6. A. Yu. Antipina, A. A. Gurtovenko, Molecular-Level Insight into the Interactions of DNA with Phospholipid Bilayers: Barriers and Triggers, RSC Advances 6, 36425-36432 (2016).
  7. A. Yu. Antipina, A. A. Gurtovenko, Molecular Mechanism of Calcium-Induced Adsorption of DNA on Zwitterionic Phospholipid Membranes, Journal of Physical Chemistry B 119, 6638 - 6645 (2015).
  8. A. A. Gurtovenko, A. S. Lyulina, Electroporation of Asymmetric Phospholipid Membranes, Journal of Physical Chemistry B 118, 9909 - 9918 (2014).
  9. E. Heikkila, H. Martinez-Seara, A. A. Gurtovenko, I. Vattulainen, J. Akola, Atomistic Simulations of Anionic Au144(SR)60 Nanoparticles Interacting with Asymmetric Model Lipid Membranes, Biochimica et Biophysica Acta (BBA) - Biomembranes 1838, 2852 - 2860 (2014).
  10. E. Heikkila, H. Martinez-Seara, A. A. Gurtovenko, M. Javanainen, H. Hakkinen, I. Vattulainen, J. Akola, Cationic Au Nanoparticle Binding with Plasma Membrane-Like Lipid Bilayers: Potential Mechanism for Spontaneous Permeation to Cells Revealed by Atomistic Simulations, Journal of Physical Chemistry C 118, 11131 - 11141 (2014).
  11. W. Zhao, A. A. Gurtovenko, I. Vattulainen, M. Karttunen, Cationic DMPC/DOTAP Lipid Bilayers: Atomistic Insight for Structure and Dynamics, Journal of Physical Chemistry B 116, 269 - 276 (2012).
  12. A. A. Gurtovenko, J. Anwar, I. Vattulainen, Defect-Mediated Trafficking across Cell Membranes: Insights from In Silico Modeling, Chemical Reviews 110, 6077 - 6103 (2010).
  13. A. A. Gurtovenko, J. Anwar, Interaction of Ethanol with Biological Membranes: The Formation of Non-Bilayer Structures within the Membrane Interior and their Significance, Journal of Physical Chemistry B 113, 1983 - 1992 (2009).
  14. A. A. Gurtovenko, I. Vattulainen, Intrinsic Potential of Cell Membranes: Opposite Effects of Lipid Transmembrane Asymmetry and Asymmetric Salt Ion Distribution, Journal of Physical Chemistry B 113, 7194 - 7198 (2009).
  15. A. A. Gurtovenko, O. I. Onike, J. Anwar, Chemically-Induced Phospholipid Translocation Across Biological Membranes, Langmuir 24, 9656 - 9660 (2008).
  16. A. A. Gurtovenko, I. Vattulainen, Membrane Potential and Electrostatics of Phospholipid Bilayers with Asymmetric Transmembrane Distribution of Anionic Lipids, Journal of Physical Chemistry B 112, 4629 - 4634 (2008).
  17. A. A. Gurtovenko, I. Vattulainen, Effect of NaCl and KCl on Phosphatidylcholine and Phosphatidylethanolamine Lipid Membranes: Insight from Atomic-Scale Simulations for Understanding Salt-Induced Effects in the Plasma Membrane, Journal of Physical Chemistry B 112, 1953-1962 (2008).
  18. A. A. Gurtovenko, I. Vattulainen, The Molecular Mechanism of Lipid Flip-Flops, Journal of Physical Chemistry B 111, 13554 - 13559 (2007).
  19. A. A. Gurtovenko, J. Anwar, Modulating the Structure and Properties of Cell Membranes: The Molecular Mechanism of Action of Dimethyl Sulfoxide, Journal of Physical Chemistry B 111, 10453 - 10460 (2007).
  20. A. A. Gurtovenko, J. Anwar, Ion Transport through Chemically-Induced Pores in Protein-Free Phospholipid Membranes, Journal of Physical Chemistry B 111, 13379 - 13382 (2007).
  21. A. A. Gurtovenko, I. Vattulainen, Lipid Transmembrane Asymmetry and Intrinsic Membrane Potential: Two Sides of the Same Coin, Journal of the American Chemical Society 129, 5358 - 5359 (2007).
  22. A. A. Gurtovenko, I. Vattulainen, Ion Leakage Through Transient Water Pores In Protein-Free Lipid Membranes Driven by Transmembrane Ionic Charge Imbalance, Biophysical Journal 92, 1878 - 1890 (2007).
  23. A. A. Gurtovenko, I. Vattulainen, Pore Formation Coupled to Ion Transport through Lipid Membranes as Induced by Transmembrane Ionic Charge Imbalance: Atomistic Molecular Dynamics Study, Journal of the American Chemical Society 127, 17570 - 17571 (2005).
  24. A. A. Gurtovenko, Asymmetry of Lipid Bilayers Induced by Monovalent Salt: Atomistic Molecular Dynamics Study, Journal of Chemical Physics 122, 244902 (2005).
  25. A. A. Gurtovenko, M. Patra, M. Karttunen, and I. Vattulainen, Cationic DMPC/DMTAP Lipid Bilayers: Molecular Dynamics Study, Biophysical Journal 86, 3461 - 3472 (2004).
[/restab] [restab title="Teaching" ] Lectures: "Computer simulation of biomolecular systems" (Master's program "Nanobiophysics, AMF) Scientific supervision: PhD thesis:
  1. "Computer modeling of the adsorption of DNA on a lipid bilayer consisting of the phosphatidylcholine molecules." Antipina A (2017)
Master thesis:
  1. "Computer simulation of the natural polysaccharide of arabinogalactan in dilute aqueous solution." Sergeev D (2013)
  2. "Computer modeling of the DNA complexes with water-soluble polycations." Kondinskaya D (2016)
  3. "The adsorption of cationic polymers on the surface of bacterial membranes. Computer Modelling." Kostritsky A (2016)
Bachelor thesis:
  1. "Computer modeling of non-viral delivery vectors based on polyethyleneimine." Kostritsky A (2014)
  2. "Computer modeling of the cationic polymer is polylysine." Kondinskaya D (2014)
At present research is carried out:
  • PhD work. "Computer modeling of nucleic acid delivery systems based on cationic polymers," Kondinskaya D (post-graduate student of the 1st year of study).
  • PhD work. "Interaction of biocompatible materials based on cellulose with model biological membranes. Computer simulation " Kostritsky A (post-graduate student of the 1st year of study).
  • Bachelor work. "Computer modeling of polypeptide chains aggregation processes" Lushpinskaya I
  • Bachelor work. "Computer simulation model phospholipid membranes," Muhamadyarov E
[/restab] [restab title="Academic activity" ] A dissertation councils membership:
  • D 212.232.40 (SPbSU)
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: J-6085-2013
ScopusID: 6701662779
ORCID: 0000-0002-9834-1617
SPIN-код: 1092-8808
[/su_table] [/restab][/restabs] [/su_column][/su_row]          

Yevlampieva Nataliya P.

[su_row][su_column size="1/4"]евлампиева


PhD, Associate professor [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"] The study of new functional polymers, revealing of  "structure-molecular properties" relations  and perspectives of the controled modification of these objects using a variety of methods in solutions (main methods: electro-optics, hydrodynamics, absorption spectroscopy) and in films. Funding (current):
  • St. Petersburg State University Grant for Applied Research 11.39.393.2014 «Selective polymer and metal non-palladium membrane to produce hydrogen from hydrocarbon fuels for fuel cells" (co-director from St. Petersburg State University, the head -. Prof. Livshits AI, SPbSUT Bonch-Bruevich.)
  • Grant RSF No. 14-19-01362 "Membrane materials with thermodynamic selectivity: separation of hydrocarbons C1-C4" (2014-2016) (performer, supervisor Prof. Yampolsky Yu.P., INKS RAS)
Main publications:
  1. Евлампиева Н.П., Хурчак А.П., Борщев О.В., Клеймюк Е.А. , Пономаренко С.А., Рюмцев Е.И. Механизмы молекулярной поляризации битиофенсилановых дендримеров в растворах.// Высокомолек. соед. А. 2011. Т. 53. № 7. С. 569-577.
  2. Евлампиева Н.П., Горшкова М.Ю., Волкова И.Ф., Григорян Э.С., Лезов А.А., Хурчак А.П., Рюмцев Е.И. Молекулярные свойства модифицированного хитозана, содержащего четвертичную аминогруппу. // Высокомолек. соед. А. 2011. Т. 53. № 2. С.213-222.
  3. Гойхман М.Я., Евлампиева Н.П., Каманина Н.В., Подешво И.В., Мильцов С.А., Гофман И. В. Хурчак А.П., Якиманский А.В. Новые полиамиды с цианиновым хромофором в основной цепи. // Высокомолек. соед. А. 2011. Т. 53. № 6. С. 851-863.
  4. Евлампиева Н.П., Добродумов А.В., Окатова О.В., Котте Э. Молекулярные свойства полилизинов дендритной архитектуры. // Вестник СПбГУ. Сер.4. 2011. Вып.4. С. 131-138.
  5. Евлампиева Н.П., Тур Д.Р., Губарев А.С., Рюмцев Е.И. Влияние длины боковых заместителей на оптические и электрооптические свойства полидиалкоксифосфазенов. // Высокомол. соед. А. 2012. Т. 54. № 5. С. 707-715.
  6. Yevlampieva N., Tur D.R., Kovshik A., Rjumtsev E. Electro-optical properties, polarity and chain rigidity of poly(dialoxyphosphazene)s.// J. Inorg. Organomet. Polym. 2012. V. 22. N5. P. 1157-1164.
  7. Yevalmpieva N.,   Dobrodumov A., Nazarova O., Okatova O., Cottet H. Hydrodynamic behavior of dendrigraft polylysines in water and dimethylformaide. // Polymers. 2012. V. 4. №1. P. 20-31.
  8. Евлампиева Н.П., Назарова О.В., Хурчак А.П., Рюмцев Е.И., Панарин Е.Ф. Молекулярные свойства поли(2-деокси-2-метакриламидо-D-глюкозы). // Журн. Прикладной Химии. 2012. Т. 85. №11. С. 1825-1832.
  9. Евлампиева Н.П., Тур Д.Р., Хурчак А.П., Губарев .А.С., Рюмцев Е.И. Электрооптические свойства фторированных полидиалкоксифосфазенов с различной длиной боковых заместителей.// «Высокомолек. соед.», сер. А. 2013. Т. 55. № 3 С. 259-266.
  10. Евлампиева Н.П. Новые полимерные материалы. Учебно-методическое пособие для студентов физического факультета СПбГУ. Изд-во ВВМ-СПбГУ: Санкт-Петербург, 2013, 80 с. ISBN 978-5-9651-0752-0.
  11. Евлампиева Н.П., Хурчак А.П., Борщев О.В., Лупоносов Ю.Н., Клеймюк Е.А., Пономаренко С.А., Рюмцев Е.И. Оптические и электрооптические свойства кремнийсодержащих производных тиофена звездообразного и дендритного строения.// Журн. Прикл. Химии 2013. Т.86. №5. С.747-755.
  12. Евлампиева Н.П., Округин Б.М., Левит М. Л., Губарев А.С., Назарова О. В., Рюмцев Е. И., Панарин Е.Ф. Конформационные и гидродинамические свойства гомополимера 2-деокси-2-метакриламидо-D-глюкозы и ее сополимеров с акриловой и метакриловой кислотами. // Высокомолек. соед. серия А. 2014. Т. 56.№4. С.381-388.
  13. Гойхман М.Я., Евлампиева Н.П., Подешво И.В, Мильцов С.А., Караван В.С., Гофман И.В., Хурчак А.П., Якиманский А.В. Полимеры с цианиновыми хромофорными группами в основной цепи: синтез и свойства. // Высокомолек. соед.», сер. Б. 2014. Т. 56. № 3. С. 326-333.
  14. Евлампиева Н.П., Антипов М.Ю., Рюмцев Е.И. Анализ структуры полимер-неорганических наночастиц в растворах. // Российские нанотехнологии. 2014 .Т. 9. №5-6 С. 27-32.
  15. Евлампиева Н.П., Хурчак А.П., Носова Г.И., Смыслов Р.Ю., Березин И.А., Якиманский А.В. Спектральные и электрооптические свойства сополимеров 9, 9- диоктилфлуорена и 2, 1, 3- бензотиадиазола в растворах. // Вестник СПбГУ. Серия 4. 2014. Вып. 3. С. 352-360.
  16. Yevlampieva N., Bugrov A., Anan’eva T., Antipov M., Ryumtsev E. Soluble poly (methyl methacrylate) composites containing covalently associated zirconium dioxide nanocrystals. // Am. J. Nano Research and Application. Special Issue: Polymeric Nanocomposites - Synthesis, Properties, and Applications. Vol. 2, No. 2, 2014, pp. 1-8.
  17. Yevlampieva N.P., Khurchak A. P., Nosova G. I., Smyslov R. Yu., Berezin I. A., Ilgach D. M., Kopylova T. N., Gadirov R. M., Yakimansky A.V. Chain microstructure and specific features of excitation energy transfer in solution and films of poly-9,9-dioctylfluorene doped with 2,1,3-benzothiadiazole comonomer units. // Chemical Physics Letters. 2016. V. 645. P.100-105.
  18. Yevlampieva N.P. , Kashina A.V., Meleshko T.K., Yakimansky A.V. Manifestation of side-chain interactions in solution properties of “loose” PI-graft-PMMA molecular brushes. //Int. J. Polym. Analysis and Characterization. 2016. V.21. Iss. 8. P. 749-760.
  19. Yevlampieva N. P. , Bermeshev M. V. , Komolkin A. V. , Vezo O. S. , Chapala P. P. , Il’yasova Yu. V. The equilibrium and kinetic rigidity of additive poly(trimethylsilyltricyclononenes) with one and two Si(CH3)3 groups in monomer unit.// Polym.Sci, Ser. A. 2017. V. 59. Iss.  4. P. 473–482.
[/restab] [restab title="Teaching" ] Lectures:
  1. «Basics of material physics», Part II (Soft matter) (1st year, the direction of "Applied Physics and Mathematics")
  2. «New polymeric materials» (4th year, 17 program "Physics of Polymers and Liquid Crystals", direction of "Physics")
  3. «Research methods of polymers for medicine and pharmacology» (5th year, 31 program "Physics of functional nanomaterials," the direction of "Physics".)
  4. "Modern Liquid Crystal and Polymer Materials" (elective general faculty course of lectures, 4th year, direction "Physics")
Scientific supervision: PhD thesis:
  • Hurchak Alexander, «Microstructures of chains, spectral and electro-optical properties of the chromophore polymers» (accepted for defense in January 2015 Dissertation Council D 212.232.33).
  • Okrugin Boris, "Molecular properties and computer modeling of polymers based on bio-monomers", defense took place on March 17, 2016 in the thesis council D 212.232.33 on specialty 02.00.06 -high-molecular compounds
Final qualification work of graduate students: Okrugin Boris "Molecular properties of chitosan and its quaternized derivative" (18.09.2015) Master thesis (since 2011 year):
  1. Hurchak Alexander, «Optical and electro-optical properties bitiofensilanovyh dendrimers and their precursors» (2011);
  2. Okrugin Boris, «Molecular properties quaternized chitosan» (2012);
  3. Antipov Mikhail  "Polymeric membranes for the separation of hydrogen from gas mixtures" (2015).
Bachelor diplomas (since 2011 year):
  1. Burda Anna Romanova, «Optical properties of thiophene-containing organosilicon dendrimers» (2011);
  2. Mikhail Antipov, «The polymethyl methacrylate zirconium dioxide modified by nanoparticles» (2013);
  3. Ilyasova Yuliya  "Molecular properties of nanoparticles based on hyperbranched polymethylmethacrylate" (2016);
  4. Slyusarenko Maria  "Cyclodextrin modified copolymer of poly (2-deoxy-2-methacrylamido-D-glucose" (2016).
At present research is carried out:
  • Usmanov Bulat (4th year student, "Dendrimers, dendrimers and hyperbranched polymers: experiment and theoretical description", "Applied physics and mathematics");
  • Kim Roman (3-year student, subject "Polymers of medical use: polydiallyamines", direction "Physics of polymers and liquid crystals");
  • Maria Slyusarenko (6th year student, theme "Hydrodynamic properties of modified chitosans", direction "Physics of functional nanomaterials");
  • Ilyasova Julia (6th year student of the topic "Molecular properties of additive silicon-containing polytricyclononenes - new polymers for gas-selective membrane technologies", direction "Physics of Functional Nanomaterials").
Areas of research is currently related to the study:
  • water-soluble polymeric carriers for medicine and pharmacology and polymeric components of drug delivery systems,
  • polymers for organic electronics,
  • hybrid polymer-inorganic nanoparticles, intended for use in nanotechnology,
  • membrane-forming polymers, suitable, in particular, for gas separation and hydrogen evolution from gas mixtures in hydrogen energy
Specific objects of these studies are reflected in the names of the main publications of recent years and the titles of reports that were presented at scientific conferences. Achievements of students, diplomas and certificates: Slyusarenko Maria in April 2017 won the competition for a scholarship of the Association of Graduates of St. Petersburg State University. slusarenko2 slusarenko1                 [/restab] [restab title="Author IDs"] [su_table]
ResearcherID: H-5853-2013
ScopusID: 6701840328
ORCID: 0000-0003-0277-2904
SPIN-код: 6865-2939
[/su_table] [/restab] [/restabs] [/su_column][/su_row]  

Kononov Alexey I.

[su_row][su_column size="1/4"]


PhD, Associate professor Department of Molecular Biophysics and Polymer Physics, Saint Petersburg State University e-mail:  a.kononov на spbu.ru +7(812) 428-9971 (office) Research Group Web Page [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"]   [restab title="Teaching Experience" active="active"] 2018-present Photonics of Supramolecular Structures 2013-2015 Molecular optics 2013-2015 Spectroscopy Technique 2013-2014 Photobiology 1990-2017 Laboratory practice in physics [/restab]   [restab title="Research Interests"] My current research interests focus, but not limited, on:
  • Studying of the structure, photophysical and photochemical properties of ligand-stabilized metal nanoclusters;
  • Gaining a deep, detailed insight into photoinduced processes in various supramolecular systems, including DNA- and protein- based structures.
Major Grants:
  •  2015-present Luminescent metal nanoclusters in nucleoprotein matrices (RSF)
  • 2014-2016 Hybrid structures based on fluorescent metal clusters, DNA and graphene (SPBU Research Grant)
Main publications (since 2010): R. R. Ramazanov, A. I. Kononov, Excitation Spectra Argue for Threadlike Shape of DNA-Stabilized Silver Fluorescent Clusters, J. Phys. Chem. C, 2013, 117 (36), 18681–18687.  [DOI link] ON COVER [Cover] Volkov I. L., Serdobintsev P. Yu., Kononov A. I., DNA-Stabilized Silver Nanoclusters with High Yield of Dark State, J. Phys. Chem. C, 2013, 117 (45), 24079–24083. [DOI link] R. R. Ramazanov, D. A. Maksimov, A. I. Kononov. Noncanonical Stacking Geometries of Nucleobases as a Preferred Target for Solar Radiation. J. Am. Chem. Soc. 2015, 137 (36), 11656–11665. [DOI link] R. R. Ramazanov, T. S. Sych, Z. V. Reveguk, D. A. Maksimov, A. A. Vdovichev, A. I. Kononov, Ag−DNA Emitter: Metal Nanorod or Supramolecular Complex? J. Phys. Chem. Lett. 2016, 7, 3560−3566. [DOI link] I. Volkov, T. Sych, P. Serdobintsev, Z. Reveguk, A. Kononov, Fluorescence saturation spectroscopy in probing electronically excited states of silver nanoclusters, J. Lumin. 2016, 172, 175-179. [DOI link] R. R. Ramazanov, A. I. Kononov, A. M. Nesterenko, J. R. Shakirova, I. O. Koshevoy, E. V. Grachova, and S. P. Tunik, Luminescence Switching of a Gold–Copper Supramolecular Complex: A Physical Insight, J. Phys. Chem. C, 2016, 120, 25541−25547. [DOI link] D.A. Maksimov, V.A. Pomogaev, A.I. Kononov, Excitation spectra of Ag3 –DNA bases complexes: a Benchmark Study, Chemical Physics Letters (2017), 673, pp 11-18. [DOI link] ON COVER I. L. Volkov, A. Smirnova, A. A. Makarova, Z. V. Reveguk, R. R. Ramazanov, D. Yu Usachov, V. K. Adamchuk, A. I. Kononov. DNA with Ionic, Atomic and Clustered Silver: An XPS Study. J. Phys. Chem. B, 121 (11), 2400-2406. [DOI link] I. L. Volkov, Z. V. Reveguk, P. Yu. Serdobintsev, R. R. Ramazanov, A. I. Kononov. DNA as UV light–harvesting antenna, Nucleic Acids Res., 2018, 46 (7), 3543-3551. [DOI link] ON COVER Z. Reveguk, R. Lysenko, R. Ramazanov, A. Kononov, Ultrafast fluorescence dynamics of DNA-based silver clusters, Phys. Chem. Chem. Phys., 2018,20, 28205-28210. [DOI link] T. S. Sych, A. A. Buglak, Z. V. Reveguk, V. A. Pomogaev, R. R. Ramazanov, A. I. Kononov, Which Amino Acids are Capable of Nucleating Fluorescent Silver Clusters in Proteins? J. Phys. Chem. C, 2018, 122 (45), 26275–26280. [DOI link] T. S. Sych, Z. V. Reveguk, V. A. Pomogaev, A. A. Buglak, A. A. Reveguk, R. R. Ramazanov, N. M. Romanov, E. V. Chikhirzhina, A. M. Polyanichko, A. I. Kononov, Fluorescent Silver Clusters on Protein Templates: Understanding Their Structure, J. Phys. Chem. C, 2018, 122 (51), 29549–29558. [DOI link]

A.A. Buglak, A.I. Kononov. Triplet state generation by furocoumarins revisited: a combined QSPR/DFT approach. New J. Chem., 2018, 42, 14424-14432. [DOI link]

A.A.Buglak, T.A.Telegina, E.A.Vorotelyak, A.I.Kononov. Theoretical study of photoreactions between oxidized pterins and molecular oxygen. J Photochem Photobiol, 2019, 372, 254-259. [DOI link]

[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: J-4745-2012
ScopusID: 7006804718
ORCID: 0000-0001-5787-3599
SPIN-код: 6890-0916
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Lyulin Sergey V.

[su_row][su_column size="1/4"]


D.Sc., Professor email: s.v.lyulin at gmail.com [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"] Multiscale computer modeling of polymer composites and based on them nanocomposites Main publications:
  1. S.V. Larin, S.G. Falkovich, V.M. Nazarychev, A.A. Gurtovenko, A.V. Lyulin, S.V. Lyulin. Molecular-dynamics simulation of polyimide matrix pre-crystallization near the surface of a single-walled carbon nanotube. RSC Adv., 2014, 4(2), 830-844.
  2. S.V. Lyulin, S.V. Larin, A.A. Gurtovenko, V.M. Nazarychev, S.G. Falkovich, V.E. Yudin, V.M. Svetlichnyi, I.V. Gofman, A.V. Lyulin. Thermal Properties of Bulk Polyimides: Insights from Computer Modeling versus Experiment. Soft Matter, 2014, 10(8), 1224-1232.
  3. S.Falkovich, S.Lyulin, V.Nazarychev, S.Larin, A.Gurtovenko, N. Lukasheva, A. Lyulin. Influence of the electrostatic interactions on the thermophysical properties of polyimides: molecular-dynamics simulations. Journal of Polymer Science, Part B: Polymer Physics, 2014, 52(9), 640–646 . 3
  4. С.Г. Фалькович, С.В. Ларин, В.М. Назарычев, И.В. Волгин, А.А. Гуртовенко, А.В. Люлин, С.В. Люлин. Компьютерное моделирование теплостойких полиимидов ULTEM™ и EXTEM™ с использованием силовых полей Gromos53a6 и Amber99. Высокомолекулярные соединения А, 2014, том 56, № 4, с. 478–488.
  5. S. G. Falkovich, S. V. Larin, A. V. Lyulin, V. E. Yudin, J. M. Kenny, S. V. Lyulin. Influence of the carbon nanofiller surface curvature on the initiation of crystallization in thermoplastic polymers RSC Adv., 2014, 4, 48606-48612. on-line
  6. S.V. Lyulin, A.A. Gurtovenko, S.V. Larin, V.M. Nazarychev, A.V. Lyulin. Microsecond Atomic-Scale Molecular Dynamics Simulations of Polyimides. Macromolecules, 2013, 46(15), 6357-6363.
  7. В.М. Назарычев, С.В. Ларин, Н.В. Лукашева, А.Д. Глова, С.В. Люлин. Оценка характерного времени уравновешивания блочных полиимидов в полноатомном компьютерном моделировании. Высокомолекулярные соединения А, 2013, Т. 55, № 9, 1193–1200.
[/restab] [restab title="Teaching" ] Lectures: «Computer simulation of polymer nanocomposites» (Master's program "Nanobiophysics, AMF) Scientific supervision: Master thesis:
  1. «Computer simulation of polymer composites reinforced with modified carbon nanotubes» .Glova A 2016
  2. «Theoretical study of composites based on PEEK and graphene» . Serebryakov E 2016
Bachelor diplomas:
  1. «Investigation of the effect of surface modification of carbon nanotubes on the structural organization of crystallizing in polyimide nanocomposite based on it» . Glova A (2014)
  2. «Computer modeling of nanocomposites based on polyimides and ULTEM EXTEM, reinforced with carbon nanotubes» .Serebryakov E  (2014)
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: M-8114-2013
ScopusID: 6701421057
ORCID: 0000-0002-3743-4457
SPIN-код: 9162-9474
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Lezova Aleksandra A.

[su_row][su_column size="1/4"]


PhD, Associate professor [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"]
  • The kinetics of phase transitions: a study of transport phenomena during the growth of the particles of a new phase in the phase transitions
  • Conformational theory of macromolecules: the relaxation properties of polymer networks.
  • Structure and properties of interpolyelectrolyte complexes
  • Theory of conformations of polyzwitterions
Main publications:
  1. N.V. Tsvetkov , P.A. Fetin, A.A. Lezov, A.S. Gubarev, L.I. Achmadeeva, A.A. Lezova, I.M. Zorin, A. Yu. Bilibin. Colloid solution of surfactant monomers and polyelectrolyte: Polymerization and properties of the resulting interpolyelectrolyte complexes. Journal of Molecular Liquids. Volume 211, November 2015, Pages 239–246. DOI: 10.1016/j.molliq.2015.07.003
  2. Martyukova, D.S.,Shchekin, A.K. , Kuchma, A.E., Lezova, A.A. Nonstationary evolution of the size, composition, and temperature of microdroplets of nonideal two- and three-component aqueous solutions. Colloid Journal . Volume 78, Issue 3, 1 May 2016, Pages 353-362. DOI: 10.1134/S1061933X16030108
  3. Kuchma, A.E.,Shchekin, A.K., Martyukova, D.S., Lezova, A.A. Equations for the evolution of a growing or evaporating free microdroplet under nonstationary conditions of diffusion and heat transfer in a multicomponent vapor–gas medium. Colloid Journal Volume 78, Issue 3, 1 May 2016, Pages 340-352.DOI: 10.1134/S1061933X16030078.
  4. Tsvetkov, N.V., Lezov A.A., Vlasov, P.S., Lezova A.A., Samokhvalova S.A., Lebedeva E.V., Polushina G.E. Copolymers of diallyldimethylammonium chloride and 2-(diallyl(methyl) ammonio) acetate: Effect of composition and ionic strength on conformational properties. European Polymer Journal. Volume 84, 1 2016 November DOI: 10.1016/j.eurpolymj.2016.09.0262016, Pages 268-278. DOI: 10.1016/j.eurpolymj.2016.09.026.
  5. A. E. Kuchma, A. K. Shchekin, A. A. Lezova, D. S. Martyukova. On the Evolution of a Multicomponent Droplet during Nonisothermal Diffusion Growth or Evaporation. Colloid Journal, 2014. — Vol. 76, — № 5. — P. 576–584.(А. Е. Кучма, А. К. Щёкин, А. А. Лезова, Д. С. Мартюкова. Об эволюции многокомпонентной капли в процессе неизотермического диффузионного роста или испарения. Коллоидный журнал, 2014. — T. 76, — № 5. — С. 626–634)
  6. A.E. Kuchma, D.S. Martyukova, A.A. Lezova, A.K. Shchekin Size, temperature and composition of a spherical droplet as a function of time at the transient stage of nonisothermal binary condensation or evaporation. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2013. — Vol. 432, — P. 147-156
  7. A.K. Shchekin, F.M. Kuni, A.A. Lezova Thermal Effects Accompanying Stationary Binary Condensation of Vapors into Overcritical Droplet. Colloid Journal, 2011. — Vol. 73, — № 3. — P. 394-405 (А.К. Щёкин, Ф.М. Куни, А.А. Лезова Тепловые эффекты при стационарной бинарной конденсации паров в закритическую каплю. Коллоидный журнал, 2011. — T. 73, — № 3. — С. 392-403)
  8. Kuni Fedor M., Lezova Alexandra A., Shchekin Alexander K. The laws of establishing stationary composition in a droplet condensing in a binary vapor-gas environment. Physica A: Statistical Mechanics and its Applications, 2009. — Vol. 388, — № 18. — P. 3728-3736
  9. Куни Ф. М., Лезова А. А. Степенные законы установления стационарной концентрации бинарного раствора в капле при ее росте в парогазовой среде. Коллоидный журнал, 2009. — T. 71, — № 4. — С. 563-565 (Kuni F.M., Lezova A.A. Power Laws for the Establishment of a Stationary Concentration in a Binary Solution Droplet Growing in a Vapor-gas Medium. Colloid Journal, 2009. — Vol. 71, — № 4. — P. 569-571)
  10. F.M. Kuni, A.A. Lezova Kinetics of Binary Condensation on the Droplet Growing in Diffusion Regime. Colloid Journal, 2008. — Vol. 70, — № 3. — P. 297-302 (Ф. М. Куни, А. А. Лезова. Кинетика бинарной конденсации на растущей в диффузионном режиме капле. Коллоидный журнал, 2008. — T. 70, — № 3. — С. 330-335)
  11. A.P. Grinin, F.M. Kuni, A.A. Lezova Nonstationary Vapor Concentration Fields Near the Growing Droplet of Binary Solution. Colloid Journal, 2008. — Vol. 70, — № 1. — P. 12-19 (А. П. Гринин, Ф. М. Куни, А. А. Лезова Нестационарные поля концентрации паров вокруг растущей капли бинарного раствора. Коллоидный журнал, 2008. — T. 70, — № 1. — С. 17-25)
  12. Ф. М. Куни, А. А. Лезова Стационарная концентрация бинарного раствора в растущей капле и закон ее установления во времени. Доклады Академии Наук, 2007. — № 5. — С. 639-641 (F.M. Kuni, A.A. Lezova Stationary Concentration of a Binary Solution in a Growing Drop and the Time of its Establishment. Doklady Physical Chemistry, 2007. — № 2. — P. 225-227)
  13. Готлиб Ю. Я., Лезова А. А., Торчинский И. А. Времена вращательной и поступательной релаксации квазиупругих и жестких гантелей, упруго связанных с узлами полимерной сетки. Высокомолекулярные соединения, 2006. — T. 48, — № 5. — С. 789-800 (Yu.Ya. Gotlib, A.A. Lezova, I.A. Torchinskii. Rotational and Translational Relaxation Times of Quasi-Elastic and Rigid Dumbbells Elastically Bound to Polymer Network Junctions. Polymer Science — Series A, 2006. — № 5. — P. 498-508)
  14. A.P. Grinin, A.A. Lezova Stationary Concentration Establishment in the Growing or Evaporating Droplet of Ideal Binary Solution. Colloid Journal, 2006. — № 6. — P. 691-699 (Гринин А. П., Лезова А. А. Установление стационарной концентрации в растущей или испаряющейся капле идеального бинарного раствора. Коллоидный журнал, 2006. — T. 68, — № 6. — С. 759-768)
  15. Готлиб Ю.Я., Лезова А.А., Торчинский И.А., Тощевиков В.П., Шевелев В.А. Релаксационные свойства жестких стержней, внедренных в полимерную сетку. Высокомолекулярные соединения, 2005. — T. 47, — № 7. — С. 1203-1212 (Yu.Ya. Gotlib, A.A. Lezova, I.A. Torchinskii, V.P. Toshchevikov, V.A. Shevelev Relaxation Properties of Rigid Rods Embedded in a Polymer Network // Polymer Science — Series A, 2005. — № 7. — P. 750-758)

[/restab]

[restab title="Teaching" ] Lectures:
  1. The scaling approach to the physics of polymers (Masters profile "Functional Nanomaterials Physics")
  2. Actual problems of the theory of phase transitions of the first kind (Masters profile "Statistical theory of inhomogeneous systems")
  3. The mechanics of polymers.
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: J-6076-2013
ScopusID: 8557989400
ORCID: 0000-0002-5869-1989
SPIN-код: 8948-9889
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Melnikov Alexander Borisovich

[su_row][su_column size="1/4"]мелн


PhD, Associate professor [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity"  active="active"]

The study of molecular hydrodynamics methods (isothermal diffusion, viscometry, light scattering, sedimentation speed, refractometry) polymer solutions, polymer complexes, micellar strutrur and liquid crystals.

Scientific achievements:
  • The winner of the Main Prize  "International Academic Publishing Company" Nauka "for the best publication in magazines published by it" 1996.
  • Winner of the competition "Grant St. Petersburg" in 2004.
  • Was awarded by the Ministry of Education of the Russian Federation, honorary diploma for fruitful scientific and pedagogical activity and great contribution to the training of highly qualified specialists (May 2003)
  • Published more than 80 articles.

[/restab]

[restab title="Teaching" ]

Lectures:

  1. Physico-chemical properties of colloidal systems (4th year, Physics)
  2. Basics of Physics of Supramolecular Systems (2nd year on the profile of the physics of functional materials)
  3. Basiscs of Physics of polyelectrolytes and biopolymers (2 course on functional materials physics profile)
Scientific supervision:
  • Specialist diplomas - 7 people (1983)
  • Bachelor work - 7 people
  • Master's thesis - 9 people
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: M-7565-2013
ScopusID: 7102720505
ORCID: 0000-0002-4413-5893
SPIN-код: 9966-8710
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Mercurieva Anna A.

[su_row][su_column size="1/4"]


  PhD, Associate professor email: anna at macro.ru [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity"  active="active"]
  1. The theory of complex polymer systems (polymer brushes, liquid crystal polymers)
  2. Computer simulation of polymer systems
(подробнее) Main publications:
  1. Microphase Coexistence in Polymeric Brushes Т.М.Бирштейн, В.М.Амосков, А.А.Меркурьева. Л.И. Клушин, А.А. Полоцкий, П.А. Яковлев Macromol. Symp 2003, 191, 51-58
  2. SCF theory of a polymer brush immersed into a multi-component solvent Т.М.Бирштейн, В.М.Амосков, А.А.Меркурьева. Macromol. Theory Simul. 2006, 15, 46-69
  3. Theory of liquid-crystalline ordering in polymer brushes Т.М.БирштейнВ.М.Амосков А.А. Меркурьева Macromol. Symp. 2007, 252, 90-100
  4. Modeling of Charged Amphiphilic Copolymer Stars near Hydrophobic Surfaces А.А. Меркурьева, Т.М. Бирштейн, F.A.M. Leermakers Langmuir 2009, 25 (19), 11516-11527
  5. Collapse of Polyhelectrolyte Star. Theory and Modelling О.В. Рудь, Т.М. Бирштейн, А.А. Меркурьева, F.A.M. Leermakers Macromolecules, 2012, 45, 2145-2160

[/restab]

[restab title="Teaching" ] Lectures:
  1. Theory of polyelectrolyte, the master's program "Nanobiophysics", 5 year (1 year of study)
  2. Theoretical methods for studying polymers, master's program "Molecular biophysics", 5 year (1 year of study)
Scientific supervision: Master thesis (since 2011 year):
  1. "Computer simulation of the natural polysaccharide of arabinogalactan in dilute aqueous solution." Sergeev DY (2012)
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: J-7975-2013
ScopusID: 35516816300
ORCID: 0000-0003-2666-6073
SPIN-код: 8312-1522
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Moroshkina Evgeniya B.

[su_row][su_column size="1/4"]


PhD, Associate professor email: evmorosh на mail.ru [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"] Complexes of DNA with biological active compounds Main publications (2005-2012):
  1. Морошкина Е.Б., Седова О.Б., Урусова Т.А. «Формирование агрегатов производного актиноцина, содержащего в амидных группах радикалы 4′-бензо-15-краун-5, и их взаимодействие с молекулой ДНК» // Журнал структурной химии. 2011. Т. 51. № 6. С. 1252-1258.
  2. Морошкина Е.Б. «Интеркаляция как способ связывания биологически активных соединений с двуспиральной ДНК» // Вестник Санкт-Петербургского университета. Серия 4: Физика. Химия. 2011. № 4. С. 114-123.
  3. Moroshkina E.B., Bogdanov A.A., Kolonistova M.O., Urusova T.A., Sedova O.B. «Effects of the Nature of Counterions in Solution on Interactions of Phenoxasones, Xantones and Carbasoles containing Benso-crown Groups with DNA» // Journal of Structural Chemistry. 2010. Т. 50. № 5. С. 989-995
  4. Морошкина Е.Б., Богданов А.А., Колонистова М.О., Седова О.Б., Урусова Т.А. «Влияние природы противоионов в растворе на взаимодействие с ДНК производных феноксазона, ксантона и карьазола, содержащих бензо-краун-группировки» // Журнал структурной химии. 2009. Т. 50. № 5. С. 1027-1033.
  5. Морошкина Е.Б. «Взаимодействие ДНК с краун-содержащими гетероциклическими соединениями» // Вестник С.-Петербургского университета, серия 4 (физика, химия), 2007, вып.2, С.17-24.
  6. E. B. Moroshkina, E. A. Kvachadze, D. V. Ovchinnikov, and E. N. Glibin. Effect of the Crown Group Size on the Interaction of Crown-Containing Actinocin Derivatives with DNA in Solution in the Presence of Na+ or K+ Ions. Russian Journal of Physical Chemistry, Vol. 79, Suppl. 1, 2005, pp. S54–S59.

[/restab]

[restab title="Teaching" ] Lectures:
  1. «Biological macromolecules and their interaction» - Bachelor, 2nd year, TFM
  2. «The interaction of macromolecules with ligands» - Master in Physics, "Molecular Biophysics"
  3. «Complexes of biological macromolecules with low molecular weight compounds» - Masters AMF "NANOBIOPHYSICS"
  4. «The interaction of proteins with nucleic acids» - Masters AMF "NANOBIOPHYSICS"
Scientific supervision: PhD thesis:
  • Osinnikova Darya "Interaction of DNA with synthetic analogs of different structure of antibiotics and alkaloids" 2016
Master thesis ( since 2011)
  1. "Spectral studies of DNA interaction with various heterocyclic compounds" Ivanov AV (2011)
  2. "The interaction of DNA with derivatives of benzoimidaftalozine" Osinnikova DN (2012)
  3. "DNA interaction study with synthetic alkaloids - derivatives of papaverine" Belasheva IV (2012)
  4. "The influence of the size of the heterocyclic system isoquinoline derivatives on their interaction with DNA," Leontiev T. (2012)
Bachelor diplomas:
  1. "Determination of the DNA binding parameters with a derivative of isoquinoline spectral methods" Zavarina AS (2012)
  2. "Investigation of the DNA structure of complexes with derivative benzoimidaftalozina" Glushkin DM (2014)
  3. "Thermodynamics of interaction of DNA with papaverine derivatives" Travkina VI (2014)
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: G-1758-2015
ScopusID: 6701474003
ORCID: 0000-0003-0465-5103
SPIN-код: 2436-0187
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Paston Sofia V.

[su_row][su_column size="1/4"]svpaston1


PhD, Associate professor email: svpaston at list.ru   [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"] The study of action of UV and gamma-radiation on the DNA molecule. Photo- and radioprotectors, photo- and radiosensitizers. Main publications:
  1. S.V. Paston, O.A. Dommes, A.E. Tarasov. Investigation of Radiation-Induced Damages in DNA Structure by Circular Dichroism and UV Absorption Spectroscopy. In: “Circular Dichroism: Theory and Spectroscopy”, Edited by David S. Rodgers, Nova Science Publishers, Inc., New York, USA, 2012, pp. 313-331 (ISBN: 978-1-61122-522-8) (abstract)
  2. Paston, S.V., Zamotin, V.V. Conformational changes of DNA γ-irradiated in the presence of aliphatic alcohols in solution. Journal of Structural Chemistry. 2010. 50 (5) , pp. 970-975.
  3. Paston, S.V., Tarasov, A.E. Effect of caffeine on DNA conformational changes after in vitro gamma-irradiation. Journal of Structural Chemistry 2011. 52 (6) , pp. 1209-1214.
  4. D. S. Ershov, S. V. Paston, L. A. Kartsova, A. V. Alekseeva, O. V. Ganzha, N. A. Kasyanenko. Investigation of the radioprotective properties of some tea polyphenols. Structural Chemistry, 2011, Vol. 22, Issue 2, P. 475-482.
[/restab] [restab title="Teaching" ]

Lectures:

  • Introduction to General Biology (6th semester)
  • Basics of Biology (optional) (7th semester)
  • Radiation Biophysics (elective) (in the graduate student's programm "Nanobiophysics", Applied Mathematics and Physics)
  • Physics (1st semester, Chemical Faculty)
Scientific supervision: Master thesis (from 2011 year):
    1. "Study of radioprotective properties of caffeine and catechins aliphatic alcohols DNA solutions." Tarasov AE (2011)
    2. "Influence of ionic strength on the structure of the DNA molecules changes due to gamma irradiation of its solutions." Chizhov KV (2011)
    3. "Effect of cations on some radiation damage to the DNA in solution." Dommes, OA (2012)
    4. "DNA interaction with divalent cations in the presence of EDTA." Ushkov PA (2013)
    5. "The study of DNA interaction with the metal complex phenanthroline." Platonov, DA (2014)
    6. "The impact of metal on the structure of DNA and photosensitivity." Nikolaev AI (2015)
Bachelor diplomas (from 2011 year):
  1. "The effect of caffeine on DNA damage in solution under the UV-light." Platonov, DA (2012)
  2. "DNA interaction studies with caffeine in the presence of copper and magnesium cations." Shulenina OV (2014)
At present research is carried out:
  • "The effect of low molecular weight ligands on the radiation damage of biological macromolecules" Ushkov PA (2 years post-graduate)
  • "The study of DNA interaction with caffeine and catechin in the presence of copper ions and magnesium" Shulenina OV (Master's degree 2 years)
  • "The study of BSA and ovalbumin structure" Abrosimov KV (4th year student)
  • "The study of the secondary structure of proteins by IR spectroscopy" Tankovskaya SA (4th year student)
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: K-5153-2013
ScopusID: 6602101898
ORCID: 0000-0003-0766-1525
SPIN-код: 1207-1430
[/su_table] [/restab] [/restabs] [/su_column][/su_row]

Polushina Galina E.

[su_row][su_column size="1/4"]


PhD, Associate professor [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"]
  • Molecular properties of polyampholytes and polyelectrolytes in solution.
  • Electrooptics of liquid crystalline compounds in the melt.
Main publications:
  1. M.E. Mikhailova, G.E. Polushina, A.B. Mel’nikov, A.V. Lezov. Molecular and Conformational Properties of Dendronized Polymethacrylate in Organic Solvent. International Journal of Polymer Anal. Charact., 2015, v. 20, № 2, p. 130–137.
  2. С. Г. Полушин, В. Б. Рогожин, А. А. Лезова, Г. Е. Полушина, Е. И. Рюмцев, Ю. Г. Галяметдинов. Предпереходные явления в изотропных расплавах смектических металломезогенов. Жидкие кристаллы и их практическое использование. 2015. Т. 15, № 2, с. 44-49.
  3. N.V. Tsvetkov , A.A. Lezov, P.S. Vlasov, A.A. Lezova, S.A. Samokhvalova, E.V. Lebedeva, G.E. Polushina. Copolymers of diallyldimethylammonium chloride and 2-(diallyl(methyl) ammonio) acetate: Effect of composition and ionic strength on conformational properties. European Polymer Journal. 2016. V. 84. P. 268-278.
  4. С.Г. Полушин, А.В. Захряпа, В.Б. Рогожин, Г.Е. Полушина, А.А. Шевлягин, М.Е. Палёнов, И.П. Коломиец, А.В. Комолкин, Е.И. Рюмцев. Электрооптические свойства изотропных расплавов смектических 4-н-алкил-4’-цианобифенилов. Жидкие кристаллы и их практическое использование. 2014. Т. 14. № 3. С. 27-34.
  5. А.В. Лезов, Г.Е. Полушина, А.А. Лезов, В.А. Изумрудов, Н.В. Кучкина, Е.Ю. Юзик-Климова, З.Б. Шифрина. Водорастворимые полиэлектролитные комплексы полифениленпиридиниевых дендримеров. Высокомолек.соед.А, 2013, т. 55, № 2, с. 149–157.
  6. О.А. Пышкина, Т.В. Панова, Ж.А. Боева, А.А. Лезов, Г.Е. Полушина, А.В. Лезов, В.Г. Сергеев. Функционализированные сульфогруппами многостенные нанотрубки в водно-солевых растворах. Российские нанотехнологии. 2012. Т. 7. № 11-12. С. 65-69.
  7. А.В. Лезов, Г.Е. Полушина. Электрооптика растворов биополимеров и их комплексов. Высокомолек.соед.А. 2012. Т. 54. № 7. С. 1095–1105.
  8.  Lezov A.A., Vlasov P.S., Polushina G.E., Lezov A.V. Effect of chemical structure and charge distribution on behavior of polyzwitterions in solution. Macromol. Symp. 2012. V. 316. P. 17-24.
  9. А.В. Лезов, П.С. Власов, А.А. Лезов, Н.С. Домнина, Г.Е. Полушина. Молекулярные свойства поликарбоксибетаина в растворах с разной ионной силой и pH. Высокомолек.соед.А. 2011. Т. 53. № 11. С. 1869–1876.
  10. А.В. Лезов, Г.Е. Полушина, А.А. Лезов, П.С. Власов, Н.С. Домнина. Молекулярные свойства   сополимеров N,N-диаллил-N,N-диметиламмоний хлорида с малеиновой кислотой. Высокомолек.соед.А. 2011. Т. 53. № 2. С. 179–188.
  11. Ж.А. Боева, О.А. Пышкина, А.А. Лезов, Г.Е. Полушина, А.В. Лезов, В.Г. Сергеев. Матричный синтез водорастворимого полианилина в присутствии полиэлектролитов. Высокомолек.соед.А. 2010. Т. 52. № 7. С. 1267–1276.
  12. А.В. Лезов, Г.Е. Полушина, А.А. Лезов, О.А. Пышкина, А.Н. Коровин, В.Г. Сергеев. Молекулярные свойства сульфированного полианилина. Высокомолек.соед.А. 2010. Т. 52. № 7. С. 1075-1079.

[/restab]

[restab title="Teaching" ] Lectures:
  • «Introducing in physics of polymers and liquid crystalls I» -3 years bachelor, Physics
  • « Chemistry of polymers and monomers» ( Master curse, Physics of functional nanomaterials»)
  • «Basics of physics of polyelectrolites and biopolymers» (Master curse, Physics of polymers and liquid crystals, Physics of functional nanomaterials)
  • «Basics of material physics II» -bachelor 1st year, AMF
Scientific supervision: Masters thesis:
  1. «Molecular properties polikarboksibetaina in solutions» Ilyash M (2012)
  2. «Molecular properties carboxybetaine copolymers in aqueous solutions» Paristov  (2012)
  3. «The structure and properties of dendrimers and cationic complexes of polyanions linear» Peredistov E (2012)
Bachelors diplomas:
  1. "The molecular properties of copolymers carboxybetaine" Ivanov AD (2011)
  2. "Kerr effect in molten substances with a complex molecular structure" Zhigalov AV (2015)
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: J-5333-2013
ScopusID: 6603549047
ORCID: 0000-0002-3530-8924
SPIN-код: 1916-0490
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Sergei G. Polushin

[su_row][su_column size="1/4"]


PhD, Associate professor email:s.polushin at spbu.ru [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"] Effects of short-range molecular order in isotropic melts of comb polymers, liquid crystal and nonmesogenic substances. The main objectives are, in particular, transitions research isotropic phase - isotropic phase and analysis of the mechanisms of molecular orientation relaxation in an electric field. Funding (current): grant SPbSU 11.38.267.2014 Main publications:
  1. Polushin S.G.; Rogozhin V.B. and Ryumtsev E.I. Kerr effect in the isotropic melt of smectic polymer // Doklady Physical Chemistry, 2015, V. 465, Part 2, P. 298–300.
  2. Polushin S.G.; Rogozhin V.B.; Ryumtsev E.I., and Galyametdinov Yu.G. Electrooptical properties of mesogenic rare_earth complexes in isotropic melts // Doklady Physical Chemistry, 2014, V. 455, Part 2, P. 64–66.
  3. Rogozhin V.B.; Lezov A.V.; Polushin S.G., and Ryumtsev E.I. Effect of the microphase separation on the electro-optical properties of isotropic melts of thermotropic liquid crystals // Russian Journal of Physical Chemistry A, 2011, V. 85, No. 11, P. 1867–1871.
  4. Polushin S.G.; Rogozhin V.B.; Zakhryapa A.V., and Ryumtsev E.I. Electric birefringence in a polystyrene melt // Doklady Physical Chemistry, 2011, V. 438, Part 1, P. 83–85.
  5. Polushin S.G.; Filippov S.K.; Fiskevich T.S.; Barmatov E.B., and Ryumtsev E.I. Dynamics of the Kerr effect in the isotropic phase of comb-shaped nematic polymers. Polymer Science, Ser. C, 2010, V. 52, No.1, P. 24–34.
  6. Polushin S.; Rogozin V.; Beloborodov I.;  Rjumtsev Е.;  Kozlovsky М. Existence of two different isotropic phases as a reason for bistable phase behavior of an LC side-chain polymethacrylate // Macromolecular Rapid Communications, 2008, V.29, Issue 3,  P.224-228.
  7. Polushin S.G.; Rogozhin V.B.; Ryumtsev E.I., and Lezov A.V. The Kerr effect in the vicinity of the transition from the isotropic to smectic-A phase. // Russian Journal of Physical Chemistry, 2006, V.80, Number 7,  P.1016–1020.
  8. Polushin S.G.; Rjumtsev E.I.; Nikitin A.; Ponomarev A.N.; Letenko D. Magnetooptic properties of carbon nano-particles in suspension. // Special Issue: «Recent Advances in Carbon Nanotubes, Nanoscale Materials and Devices» in International Journal of Nanoscience. Editor World Scientific, Singapore, 2002, V.1, Number 3-4, P.269-276.
  9. Polushin, S.G.; Melnikov A.B.; Polushina G.E.; Barmatov E.B.; Shibaev V.P.; Lezov A.V.; Rjumtsev E.I. // Electrooptic and hydrodynamic properties of ionogenic liquid-crystalline copolymers in solutions and melts // Polymer Science, series A, 2001, V.43, N5, P.511-518.
  10. Ryumtsev, E.I.; Polushin, S.G.; Tarasenko, K.N.; et al. // Equilibrium and dynamic electrooptical properties of nematic and isotropic phases of 4-n-alkoxy-4′-cyanobiphenyls. Zhurnal Fizicheskoi Khimii, 1995, V.69, Issue:5, P.940-943.
  11. Polushin, S.G.; Ryumtsev, E.I.; Electrogydrodinamic instabilities in nematic LC with large positive dielectric anisotropy. Liquid Crystals, 1993, V.13, P.623.
  12. Ryumtsev, E.I.; Polushin, S.G., Kerr-effect in isotropic phase of monotropic liquid crystals // Molecular Crystals and Liquid Crystals, 1992, V.212, P.271.
  13. Tsvetkov, V.N.; Riumtsev, EI; Polushin, SG; et al., High-frequency dielectric polarization of liquid-crystals in the direction of their optical-axis // Doklady Akademii Nauk SSSR, 1980, V.254, Issue 3,  P. 619-623.
  14. Tsvetkov, V.N.; Ryumtsev, E.I.; Polushin, S.G. et al., Molecular mechanisms of dielectric polarization and its relaxation in nematic liquid-crystals // Acta Physica Polonica A, 1979, V. 56, Issue 6,   P.871-878.

[/restab]

[restab title="Teaching" ] Lectures:
  1. "Orientation effects in liquid crystals in external fields". 2nd year undergraduate students, Functional materials physics.
  2. "Functional materials based on polymers and liquid crystals". 1st year Masters, Functional materials physics.
  3. "Basics of Materials Physics. 1st year undergraduate students", AMF.
  4. "Modern polymer and liquid crystal materials". 4th year undergraduate students, Physics.
  5. "Fundamentals of Physics of polymers and liquid crystals ".  4 year undergraduate students, Physics.
Scientific supervision: PhD thesis:
  1. Zahryapa AV "Electric birefringence in isotropic melts LCD and nonmesogenic substances" (thesis defence in 2015).
Master thesis:
  1. Mastyugin AV "Kerr effect in polymer melts of smectic" (2012)
  2. Sakas AR "Temperature dependence of the Kerr constant in the isotropic phase, smectic comb polymers" (2012)
  3. Ivanov VD "Electric birefringence and its dynamics mesogenic comb polymer in an isotropic melt." (2013)
  4. Shevlyagin AA "Liquid crystals are based on complexes of rare-earth elements: the electro-optical properties and molecular structure" (2016).
Bachelor diplomas:
  1. Ivanov VD "Electro-optical properties of the smectic acrylic homopolymer" (2011)
  2. Pchelkina AV "Kerr effect phase transition in a heptyl ester (N-glyukoziliden) aminobenzoic acid" (2012)
  3. Shevlyagin AA "Kerr effect and short-range order in the melts mesogenic compounds' (2014)
At present research is carried out:
  1. Lezova IE "Investigation of short-range order effects in isotropic melts of low-molecular liquid crystal metallomezogenes and comb polymers" (graduate student 2 years).
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: A-2587-2009
ScopusID: 6602757741
ORCID: 0000-0003-1206-2762
SPIN-код: 8034-4720
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Polyanichko Aleksandr M.

[su_row][su_column size="1/4"]pol


PhD, Associate professor email [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"] (details)
  • Sstructure and function of Chromatin
  • Non-histone chromatin HMGB-proteins
  • Linker histones if the Н1 family
  • Complexes of DNA with proteins and small molecules
  • The structure and properties of the polyelectrolyte polymer-colloid complexes.
Funding (current): RFBR "Architectural chromatin proteins as a tool for the assembly of supramolecular structures based on DNA," 2015-2017 Our research is supported by grants from the Russian Foundation for Basic Research (RFBR) and the Government of St. Petersburg. Main publications:
  1.  Chikhirzhina E., Starkova T., Kostyleva E., Polyanichko A. (2013) Spectroscopic study of the interaction of DNA with the linker histone H1 from starfish sperm reveals mechanisms of the formation of super condensed sperm chromatin, in: M.P. Marques, L.A.E. Batista de Carvalho, P.I. Haris (Eds.) Advances in Biomedical Spectroscopy: Spectroscopy of Biological Molecules, IOS Press, 2013, pp. 177-183. (ISBN 978-1-61499-183-0; DOI 10.3233/978-1-61499-184-7-177).
  2. Polyanichko A., Chikhirzhina E. (2013) Supramolecular organization of the complexes of DNA with chromosomal proteins HMGB1 and H1, in: M.P. Marques, L.A.E. Batista de Carvalho, P.I. Haris (Eds.) Advances in Biomedical Spectroscopy: Spectroscopy of Biological Molecules, IOS Press, 2013, pp. 185-190. (ISBN 978-1-61499-183-0; DOI 10.3233/978-1-61499-184-7-185).
  3. Polyanichko. A.M., Andrushchenko V.V., Bouř P., Wieser H. (2012) Vibrational circular dichroism studies of biological macromolecules and their complexes. In: “Circular Dichroism: Theory and Spectroscopy”, Edited by David S. Rodgers, Nova Science Publishers, Inc., New York, USA, 2011, pp. 67-126 (PDF).
  4. Tsankov D., Polyanichko A., Wieser H. (2011) Vibrational Circular Dichroism: Ensuring Quality of Pharmaceutical Products, In: “Handbook of Analysis and Pharmaceutical Quality. Pharmaceutical Sciences Encyclopedia: Drug Discovery, Development, and Manufacturing”, Edited by Shayne C. Gad, John Wiley & Sons, Inc, 1-41.
  5. Polyanichko A.M., Wieser H. (2007) Vibrational circular dichroism and its applications to Protein studies. In “Methods in Protein Structure and Stability Analysis: Vibrational Spectroscopy”, E. Permyakov and V. Uversky (Eds.), Nova Science Publishers, Inc., New York, USA, 2007, pp 267-302.
  6. Chikhirzhina E.V., Chikhirzhina G.I., Polyanichko A.M. (2014) Chromatin structure: The role of “linker” proteins. Biomedical Spectroscopy and Imaging , 3(4), 345-358.
  7. Поляничко А.М., Романов Н.М., Старкова Т.Ю., Костылева Е.И., Чихиржина Е.В. (2014) Анализ вторичной структуры линкерного гистона H1 по спектрам инфракрасного поглощения, Цитология, 56(4), С. 316-322 (Polyanichko A.M., Romanov N.M., Starkova T.Y., Kostyleva E.I., Chikhirzhina E.V. (2014) Analysis of the secondary structure of linker histone H1 based on IR absorption spectra. Cell and Tissue Biology, 8(4), 352-358).
  8. Chikhirzhina E.V., Starkova T.Ju., Polyanichko A.M. (2014) Interaction between chromosomal protein HMGB1 and DNA studied by DNA-melting analysis. Journal of spectroscopy, vol. 2014, Article ID 387138.
  9. Поляничко А.М., Воробьёв В.И., Чихиржина Е.В., (2013) Структура комплексов ДНК с хромосомным белком HMGB1 и гистоном Н1 в присутствии ионов марганца. II. Спектроскопия кругового дихроизма в ИК области. Мол. биол., 47(2), 338-46
  10. Polyanichko A., Chikhirzhina E. (2013) Interaction between DNA and chromosomal proteins HMGB1 and H1 studied by IR/VCD spectroscopy. J. Mol. Struct., 1044, 167-172
  11. Polyanichko A., Chikhirzhina E. (2012) Interaction between Nonhistone Protein HMGB1 and Linker Histone H1 Facilitates the Formation of Structurally Ordered DNA-Protein Complexes. Spectroscopy: An International Journal, 27(5-6), P. 393-8
  12. Chikhirzhina E., Starkova T., Kostyleva E., Polyanichko A. (2012) Spectroscopic Study of the Interaction of DNA with the Linker Histone H1 from Starfish Sperm Reveals Mechanisms of the Formation of Super Condensed Sperm Chromatin. Spectroscopy: An International Journal, 27(5-6), P. 433-40.
  13. Polyanichko A.M., Rodionova T.J., Vorob’ev V.I., Chikhirzhina E.V. (2011) Conformational Properties of Nuclear protein HMGB1 and Specificity of Its Interaction with DNA. Cell and Tissue Biology. (Поляничко А.М., Родионова Т.Ю., Воробьёв, В.И., Чихиржина Е.В. (2011) Конформационные особенности ядерного белка HMGB1 и специфика его взаимодействия с ДНК. Цитология, 53(2), 55-60).
  14. Chikhirzhina E.V., Starkova T.Yu., Kostyleva E.I., Chikhirzhina G. I., Vorobyev V.I., Polyanichko A.M. (2011) Interaction of DNA with Sperm-Specific Histones of the H1 Family. Cell and Tissue Biology, 5(6), 536-42. (Чихиржина Е.В., Старкова Т.Ю., Костылева Е.И., Чихиржина Г.И., Воробьев В.И., Поляничко А.М. (2011) Взаимодействие ДНК со спермий-специфическими гистонами семейства Н1, Цитология, 53(10), С. 826-31).
  15. Чихиржина Е.В., Поляничко А.М., Костылева Е.И., Воробьёв В.И. (2011) Структура комплексов ДНК с хромосомным белком HMGB1 и гистоном Н1 в присутствии ионов марганца. I. Спектроскопия кругового дихроизма. Мол. биол., 45(2), 356-65.
  16. Polyanichko A. and Wieser H. (2010) Structural organization of DNA–protein complexes of chromatin studied by vibrational and electronic circular dichroism. Spectroscopy: An International Journal, 24(3-4), p. 239-44.
  17. Chikhirzhina E., Polyanichko A., Leonenko Z., Wieser H., Vorob’ev V. (2010) C-terminal domain of nonhistone protein HMGB1 as a modulator of HMGB1–DNA structural interactions. Spectroscopy: An International Journal, 24(3-4), p. 361-6.
  18. Rodionova T.Y., Chikhirzhina E.V., Vorob'yov V.I., Polyanichko A.M. (2010) Changes in the secondary structure of HMGB1 protein bonded to DNA, Journal of Structural Chemistry, 50, 976-81 (Родионова Т.Ю., Чихиржина Е.В., Воробьев В.И., Поляничко А.М. (2009) Изменение вторичной структуры белка HMGB1 при связывании с ДНК. Журнал Структурной Химии, Т. 50, № 5, С. 1014-20).
  19. Поляничко А.М., Леоненко З.В., Крамб Д., Визер Г., Воробьев В.И., Чихиржина Е.В. (2008) Структурная организация комплексов ДНК с белками HMGB1 и HMGB1-(A+B). Биофизика, 53(3), С. 407-16.
  20. Polyanichko A.M., Chirkhirzhina E.V., Andrushchenko V.V., Vorob’ev V.I., Wieser H. (2006). The effect of manganese(II) on the structure of DNA/HMGB1/H1 complexes: electronic and vibrational circular dichroism studies. Biopolymers, 83(2), 182-92.
  21. Polyanichko A, Wieser H. (2005) The FTIR/VCD spectroscopy as an informative tool for the investigation of large supramolecular complexes of biological macromolecules. Biopolymers, 78(6), 329-39.
  22. Поляничко А.М., Чихиржина Е.В., Андрущенко В.В., Wieser H., Воробьёв В.И. (2005) Спектральные исследования структуры комплексов ДНК с ионами Mn2+ в УФ и ИК диапазонах. Биофизика, 50(5), 810-7.
  23. Polyanichko A.M., Andrushchenko V.V., Chikhirzhina E.V., Vorob'ev V.I., Wieser H. (2004) The effect of manganese(II) on DNA structure: electronic and vibrational circular dichroism studies. Nucleic Acids Res. 2004 Feb 10; 32(3):989-96.
  24. Поляничко А.М., Чихиржина Е.В., Костылева Е.И., Воробьев В.И. (2004) Структура комплексов ДНК с негистоновым хромосомным белком HMGB1 в присутствии ионов марганца. // Мол. Биол., 38(6), c. 1041-9.
  25. Поляничко А.М., Чихиржина Е.В., Андрущенко В.В., Костылева Е.И., Wieser H., Воробьев В.И. (2004) Влияние ионов Са2+ на компактизацию ДНК в комплексе с негистоновым хромосомным белком HMGB1. Молекулярная Биология, 38(4), с. 701-12.
  26. Polyanichko A.M., Chikhirzhina E.V., Skvortsov A.N., Kostyleva E.I., Colson P., Houssier C., Vorob’ev V.I. (2002) “The HMG1 Ta(i)le”, Journal of Biomolecular Structure and Dynamics, 2002 Jun; 19(6):1053-62.
  27. Чихиржина Е.В., Поляничко А.М., Скворцов А.Н., Костылева Е.И., Уссье К., Воробьёв В.И. (2002) “HMG1-домены: заложники обстоятельств”, Молекулярная Биология, 36(3), с. 525-31.
  28. Поляничко А.М., Давыденко С.Г., Чихиржина Е.В., Воробьёв В.И. (2000) “Взаимодействие суперспиральной ДНК с негистоновым белком HMG1”, Цитология, 42(8), 787-93.
[/restab] [restab title="Teaching" ] Lectures:
  1. "Basics of biochemistry", 3 year (AFM)
  2. "Introduction to molecular Biology", 4 year (AFM)
  3. "The structure and function of biopolymers," 4th year (Physics)
  4. "Molecular spectroscopy", 5 year (master's program in the profile of  "Nanobiophysics")
  5. "The structure and properties of biological macromolecules", 5 year (master's program in the profile of "Neutrons and synchrotron physics")
  6. "Additional chapters of molecular spectroscopy", 6 course (master's program in profile of "Molecular biophysics")
Scientific supervision: Bachelors diplomas:
  1. "IR-spectroscopy of aqueous solutions of DNA in the presence of metal ions" (Tymchenko EE - 2016)
  2. "The formation of supramolecular protein complexes in the presence of metal ions" (Andreev MV - 2016)
  3. "IR-spectroscopy of  DNA complexes with metal ions" (Whistlers AE - 2016)
  4. "IR-spectroscopy of protein complexes with metal ions" (Baranov YG - 2015)
  5. "The study of the interaction of linker histone H1 and non-histone chromosomal protein HMGB1» (Sozonova AA - 2014)
  6. "The interaction of DNA with nuclear chromatin proteins" (Savvateev AY - 2014)
  7. "Analysis of the secondary structure of proteins by IR absorption spectra" (Romanov NM - 2013)
  8. "The Association of H1 and chromatin protein HMGB1 in aqueous salt solutions" (Mikhailov, NV - 2013)
  9. "Interaction of DDP(II) with biological molecules" (White IA - 2013)
  10. "An analysis of post-translational modifications of chromatin proteins HMGB1 H1 and by MALDI mass spectrometry" (Sitnikov AV - 2013)
Master thesis:
  1. "An analysis of post-translational modifications of chromatin linker proteins by mass spectrometry" (Babich AV - 2015)
  2. "Interaction of DDP (II) c DNA and proteins" (White IA - 2015)
  3. "Mechanisms of intermolecular protein complexes on the example of BSA proteins, H1 and HMGB1» (Mikhailov, NV - 2015)
  4. "Determination of the secondary structure of proteins in the spectra of an aqueous solution of IR absorption" (Romanov NM - 2015)
  5. "Spectroscopic studies of the kinetics of the interaction of platinum coordination compounds with DNA" (Ogarkov MA - 2012)
  6. "Investigation of the interaction of the cis- and trans-dihlorodiamminplatinum (II) with biological molecules" (Feofilova MS - 2012)
  7. "Interaction HMGB-domains with DNA on an example of non-histone proteins of chromatin HMGB1» (Rodionova (Starkova) TY - 2011)
  8. "The study of the interaction of histone H1 with non-histone proteins HMGB1» (Kipenko IB - 2011)
[/restab] [restab title="Academic activity"  ] A dissertation councils membership:
  • D 212.232.33
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: G-8225-2011
ScopusID: 6602405202
ORCID: 0000-0001-7695-3586
SPIN-код: 2417-5760
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Gubarev Aleksandr S.

[su_row][su_column size="1/4"]uym


PhD, Senior teacher 

Tel +7 (812) 428-43-82 e-mail: a.gubarev@spbu.ru

[/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity"  active="active"]
  • The study of the functional properties of synthetic and biological macromolecular compounds, establishing a link between the chemical structure and properties of macromolecules
  • Studying the properties of polyelectrolyte / polyelektrolyte complexes in an extremely wide range of ionic strength
  • Determination of the influence of the molecular characteristics of chain molecules on the properties of the films at the interface
  • The development and study of molecular properties of the containers on the basis of block copolymers, and dendritic structures for targeted drug delivery
  • Methodology of molecular hydrodynamics approach (analytical ultracentrifugation, isothermal translational diffusion, viscometry)
Main publications:
  1. Tsvetkov, N. V.; Mikusheva, N. G.; Lezov, A. A.; Gubarev, A. S.; Mikhailova, M. E.; Podseval’nikova, A. N.; Akhmadeeva, L. I.; Lebedeva, E. V.; Zorin, I. M.; Shcherbinina, T. M.; Bilibin, A. Y. Molecular, conformational, and optical characteristics of poly(cetylammonium-2-acrylamido-2-methylpropanesulfonate) obtained by micellar polymerization. Eur. Polym. J. 2016, 75, 251-263.
  2. Yakimansky, A. V.; Bushin, S. V.; Bezrukova, M. A.; Lezov, A. A.; Gubarev, A. S.; Lebedeva, E. V.; Akhmadeeva, L. I.; Podseval'nikova, A. N.; Tsvetkov, N. V.; Koeckelberghs, G.; Persoons, A. Hydrodynamic properties and conformation of poly(3-hexylthiophene) in dilute solutions. J. Polym. Sci., Part B: Polym. Phys. 2016 (in press)
  3. Yevlampieva, N. P.; Gubarev, A. S.; Gorshkova, M. Y.; Okrugin, B. M.; Ryumtsev, E. I. Hydrodynamic behavior of quaternized chitosan at acidic and neutral pH. Journal of Polymer Research 2015, 22, (9), 1661-9.
  4. Tsvetkov, N. V.; Fetin, P. A.; Lezov, A. A.; Gubarev, A. S.; Achmadeeva, L. I.; Lezova, A. A.; Zorin, I. M.; Bilibin, A. Y. Colloid solution of surfactant monomers and polyelectrolyte: Polymerization and properties of the resulting interpolyelectrolyte complexes. J. Mol. Liq. 2015, 211, 239-246.
  5. Yevlampieva, N. P.; Gubarev, A. S.; Gorshkova, M. Y.; Okrugin, B. M.; Ryumstev, E. I. Quaternized and Unmodified Chitosans: Hydrodynamic Properties. Journal of Research Updates in Polymer Science 2015, 4, (1), 31-41.
  6. Pavlov, G. M.; Okatova, O. V.; Gubarev, A. S.; Knop, K.; Schubert, U. S. Amphiphilic star-shaped block copolymers – molecular drug delivery micelles. Hydrodynamic study. Polym. Sci. A 2015, 57, (2), 115-122.
  7. Yevlampieva, N. P.; Okrugin, B. M.; Levit, M. L.; Gubarev, A. S.; Nazarova, O. V.; Ryumstev, E. I.; Panarin, E. F. Conformational and hydrodynamic properties of the homopolymer of 2-deoxy-2-methacrylamido-D-glucose and its copolymers with acrylic acid and methacrylic acid. Polym. Sci. A 2014, 56, (4), 414-421.
  8. Pavlov, G. M.; Okatova, O. V.; Gubarev, A. S.; Gavrilova, I. I.; Panarin, E. F. Strong Linear Polyelectrolytes in Solutions of Extreme Concentrations of One–One Valent Salt. Hydrodynamic Study. Macromolecules 2014, 47, 2748-2758.
  9. Yevlampieva, N. P.; Tur, D. R.; Khurchak, A. P.; Gubarev, A. S.; Ryumtsev, E. I. The electro-optic properties of fluorinated polydialkoxyphosphazenes with different lengths of side substituents. Polym. Sci. A 2013, 55, (3), 145-152.
  10. Lavrenko, V. P.; Gubarev, A. S.; Lavrenko, P. N.; Okatova, O. V.; Pavlov, G. M.; Panarin, E. F. Processing of Digital Interference Images Obtained on Tsvetkov Diffusometer. Ind. Lab. Materials Diagnostics 2013, 79, (7-1), 33-36.
  11. Yevlampieva, N. P.; Tur, D. R.; Gubarev, A. S.; Ryumtsev, E. I. Influence of the length of side substituents on optical and electro-optical properties of polydialkoxyphosphazenes. Polym. Sci. A 2012, 54, (5), 349-357.
  12. Pavlov, G. M.; Gubarev, A. S.; Gavrilova, I. I.; Panarin, E. F. Conformations of Sodium Poly(styrene-4-sulfonate) Macromolecules in Solutions with Different Ionic Strengths. Polym. Sci. A 2011, 53, (11), 1003-1011.
  13. Gubarev, A. S.; Carrillo, J. M. Y.; Dobrynin, A. V. Scale-Dependent Electrostatic Stiffening in Biopolymers. Macromolecules 2009, 42, (15), 5851-5860.
  14. Pavlov, G. M.; Zaitseva, II; Gubarev, A. S.; Korneeva, E. V.; Gavrilova, II; Panarin, E. F. Conformation of sodium poly(4-styrenesulfonate) macromolecules in aqueous solutions. Dokl. Chem. 2008, 419, 111-112.
  15. Pavlov, G. M.; Gubarev, A. S.; Zaitseva, II; Fedotov, Y. A. Spontaneous birefringence in films of some phenyl-containing polymers. Polym. Sci. B 2007, 49, (7-8), 191-195.
  16. Grishchenko, A. E.; Khudyakova, O. V.; Mikhailova, N. A.; Gubarev, A. S.; Ionov, A. N.; Nikolaeva, M. N.; Svetlichnyi, V. M. Molecular characteristics and surface layer structure of poly(siloxane imides). Polym. Sci. A 2007, 49, (5), 532-537.
  17. Pavlov, G. M.; Zaitseva, I. I.; Gubarev, A. S.; Gavrilova, I. I.; Panarin, E. F. Diffusion-viscometric analysis and conformational characteristics of sodium polystyrenesulfonate molecules. Russ. J. Appl. Chem. 2006, 79, (9), 1490-1493.
  18. Pavlov, G. M.; Gubarev, A. S.; Zaitseva, II; Sibileva, M. A. Determination of intrinsic viscosity of polyelectrolytes in salt-free solutions. Russ. J. Appl. Chem. 2006, 79, (9), 1407-1412.
  19. Grishchenko, A. E.; Mikhailova, N. A.; Naumova, L. V.; Gubarev, A. S.; Makarova, N. N.; Chizhova, N. V. Study of orientational order in thin films of disklike heptameric polycyclosiloxane molecules by means of the oblique-polarized-ray method. J. Opt. Technol. 2005, 72, (1), 15-19.
  20. Grishchenko, A. E.; Makarova, N. N.; Mikhailova, N. A.; Naumova, L. V.; Gubarev, A. S.; Chizhova, N. V. Study of the orientational order in thin films of disclike heptameric polycyclosiloxane molecules by the inclined polarized beam method. Dokl. Phys. Chem. 2004, 398, 254-257.

[/restab]

[restab title="Teaching" ]

Lectures:

  • "Physical methods of diagnostics of materials" \ 1 year graduate course "AMF"
  • "Physical methods for determining the molecular weight and molecular weight distribution" \ 2 year graduate course "Physics"
  • "Laboratory workshop on dielectric spectroscopy, molecular optics and electro-optic polymers and liquid crystals, laboratory work" 4 year undergraduate course "Physics"
  • "Basics of physical methods of diagnostics of materials, part 2" \ 2 year undergraduate course "AMF"
  • "General physics, mechanics and relativity theory" \ 1 year undergraduate course "Physics"
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: J-9313-2013
ScopusID: 6701614582
ORCID: 0000-0002-2888-7526
SPIN-код: 7833-9549
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Dobrun Liliya A.

[su_row][su_column size="1/4"]


PhD, Senior teacher [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity"  active="active"]
  • liquid crystals, dielectric spectroscopy, liquid crystal complexes of lanthanides, metallomezogens.
Main publications:
  1. Л. А. Добрун, А. С. Сахацкий, А. П. Ковшик, Е. И. Рюмцев, А. А. Князев, Ю. Г. Галяметдинов «Диэлектрические свойства нематического жидкокристаллического комплекса на основе иттербия», Письма в ЖЭТФ, т.99, №3, с. 150-153.

[/restab]

[restab title="Teaching" ] Lectures:
  • "Basics of physical methods of diagnostics of materials", part 2 - Bachelor, 2nd year (AMF)
Scientific supervision: Bachelors diplomas:
  1. Kirsanov Gennady "Dielectric properties of liquid crystal alkoksibenzoynes acids" 2013.
  2. Vadim Vershinin "Creation of software for the analysis of dielectric spectra" 2013.
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: J-9810-2013
ScopusID: 26530987800
ORCID: 0000-0003-2563-7385
SPIN-код: 2246-7647
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Mikhailova Mariya E.

[su_row][su_column size="1/4"]


PhD, Senior teachers

email: mari1978 на mail.ru

 m.e.mikhailova на spbu.ru

[/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"]

Hydrodynamic and electrooptical properties of the polymers in solution, dendrimers, ionomers conjugates comb polymers.

Main publications:
  1. N.V. Tsvetkov, M.E. Mikhailova, N.G. Mikusheva, A.A. Lezov, A.S. Gubarev, E.V. Lebedeva, I. Perevyazko, I.M. Zorin, and A.Yu. Bilibin “Molecular and conformational properties of comb-like polymers with ionically bound side chains studied in organic solvent”// Int. J. Polym. Anal. Charact. 2016, http://dx.doi.org/10.1080/1023666X.2016.1222480
  2. N.V. Tsvetkov, M.E. Mikhailova, E.V. Lebedeva, A.A. Lezov, V.B. Rogozhin, T.A. Rotinyan “Influence of the strength of polarizing electric field on free relaxationof electric birefringence in poly(butyl-isocyanate) solutions”// Chemical Physics Letters 2016, 648, 137.
  3. A.V. Penkova, S.F.A. Acquah, M.E. Dmitrenko, M.P. Sokolova, M.Е. Mikhailova, E.S. Polyakov, S.S. Ermakov, D.A. Markelov, D.Roizard “Improvement of pervaporation PVA membranes by the controlled incorporation of fullerenol nanoparticles” //Materials and Design 2016, 96, 416.
  4. N.V. Tsvetkov, N.G. Mikusheva, A.A. Lezov, A.S. Gubarev, M.E. Mikhailova, A.N. Podseval’nikova, L.I. Akhmadeeva, E.V. Lebedeva, I.M. Zorin, T.M. Shcherbinina, A.Yu. Bilibin “Molecular, conformational, and optical characteristics of poly(cetylammonium-2-acrylamido-2-methylpropanesulfonate) obtained by micellar polymerization”//European Polymer Journal 2016, 75, 251.
  5. Mikhailova M.E., Polushina G.E., Mel’nikovA.B., Lezov A.V. “Molecular and Conformational Properties of Dendronized Polymethacrylate in Organic Solvent”// Int. J. Polym. Anal. Charact. 2015, 20, 2, 130
  6. Domnina N.S., Sergeeva O.Yu., Komarova E.A Mikhailova M.E., Vol’eva V.B., Belostotskaya I.S., Komissarova N.L. “Indicator properties of oligoethylene glycol hybrids with sterically hindered phenols.”// Russian journal of organic chemistry, 2014, Т. 50, №. 3, стр. 371.
  7. L.A. Dobrun, E.L. Kuzyakina, O.V. Rakitina, O.Yu. Sergeeva, M.E. Mikhailova, N.S. Domnina, A.V. Lezov “Molecular characteristics and antioxidant activity of polyethylene glycols modified by sterically hindered phenols”// Journal of Structural Chemistry, Vol. 52, № 6, pp. 1161-1166, 2011.
  8. Домнина Н.С., Сергеева О. Ю., Ракитина О. В., Королёва А.Н., Добрун Л.А., Филиппов С. К., Михайлова М. Е., Лезов А. В. “Молекулярные свойства конъюгатов синтетических гидрофильных полимеров и пространственно-затрудненных фенолов”// Высокомолекулярные соединения, серия А, Т. 52, № 9, 2010, 1570-1577.
  9. Lezov, A.V., Polushina, G.E., Mikhailova, M.E., Rjumtsev, E.I. “Self-assembly of sulfonated polystyrene ionomers in chloroform”// Macromolecular Symposia 278 (1), pp. 48-56.
  10. Lezov A.V., Polushina G.E., Mikhailova M.E., Matveeva I.N., Dobrun L.A., Ryumtsev E.I. " Electroptical and dynamic properties of sulfonated polystyrene molecules and their associates in chloroform"// Polymer Science - Series A , 2009, 51 (3), pp. 269-276
  11. A. V. Lezov, A. B. Mel’nikov, S. K. Filippov, G. E. Polushina, E. A. Antonov, M. E. Mikhailova, E. I. Ryumstev. Hydrodynamic and Conformational Properties of Dendron-Modified Polystyrene Molecules// Polymer Science, Ser. A, 2006, Vol. 48, No. 3, pp. 325-332.
  12. A.V. Lezov, G.E. Polushina, S.A. Kovshik, M.E. Mikhailova, T.N. Semenikhina, A.P. Kovshik, E.I. Ryumtsev. Electrical and Dynamooptical Properties of Frecht Dendron-Modified Polystyrene Molecules in Solutions// Polymer Science, Ser. A, 2006, Vol. 48, No. 7, pp. 723-730.
  13. Svetlana Kovshik, Mariya Mikhailova, Galina Polushina, Evgeni Rjumtsev, Alexander Kovshik, Andrey Lezov. Dielectric relaxation of dendronized polystyrene in solutions// Journal of Non-crystalline solids, 2005, V. 351, Issues 33-36, P 2723 – 2727.
  14. Лезов А.В., Михайлова М.Е., Ковшик С.А., Полушина Г.Е., Рюмцев Е.И. О природе электрооптического эффекта в растворах гребнеобразного полимера с мезогенными боковыми группами// Высокомолекулярные соединения, серия А, 2003, том 45, №7, с. 1123 – 1129.
  15. Лезов А.В., Полушина Г.Е., Михайлова М.Е., Ребров Е.А., Музафаров А.М., Рюмцев Е.И. Электрооптические свойства карбосилановых дендримеров с мезогенными концевыми группами в растворе// Журнал физической химии, 2003, том 77, №6, с. 1050 – 1053.
  16. Лезов А.В., Мельников А.Б., Полушина Г.Е., Антонов Е.А., Новицкая М.Е. (Михайлова), Бойко Н.И., Пономаренко С.А., Ребров Е.А., Шибаев В.П., Рюмцев Е.И., Музафаров А.М. Самоорганизация концевых мезогенных групп в молекулах карбосилановых дендримеров// Доклады Академии Наук, 2001, том 381, №1, стр. 69 – 73.

[/restab]

[restab title="Teaching" ]

Lectures:

  1. Physical methods for determining the molecular weight and molecular weight distribution (MA, direction Physics profile "Functional Nanomaterials Physics")
  2. Introduction to physical methods of diagnostics of materials (undergraduate, the direction of AMF profile "Physical fundamentals of functional materials diagnostics").

Scientific supervision:

Masters thesis:

  1. Kuzyakina EL (2011) "The molecular properties of the modified hindered phenols polyethylene glycol solutions"
  2. Makaronicheva AV (2012), "Hydrodynamic and conformational properties of polyethylene glycol-modified hindered phenols in the solutions."

Bachelors diplomas:

  1. Sisoev S. (2013) "Conformational and optical properties of the comb polymer with ion-bound side groups in solution."
  2. Kitaeva AK (2016) "Equilibrium and nonequilibrium EDL in solutions comb polymers".
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: J-8575-2013
ScopusID: 55401654300
ORCID: 0000-0001-5019-2248
SPIN-код: 9746-2619
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Petrov Mihail P.

[su_row][su_column size="1/4"]


PhD, Senior teacher

Tel. 428-44-37

e-mail: m.p.petrov на spbu.ru

[/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity"  active="active"]

Optical and electro-optical study of disperse systems with the objects of micro- and nano-scale.

Main publications:

  1. S.A. Klemeshev, M.P. Petrov, V.I. Rolich, A.A. Trusov, A.V. Voitylov, V.V. Vojtylov Static, dynamic and electric light scattering by aqueous colloids of diamond // Diamond and Related Materials, 2016. — Vol. 69, — P. 177-182
  2. M.P. Petrov, V.N. Shilov, A.A. Trusov, A.V. Voitylov, V.V. Vojtylov Electro-optic research of polarizability dispersion in aqueous polydisperse suspensions of nanodiamonds // Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2016. — Vol. 506, — P. 40-49
  3. Войтылов А. В., Петров М. П., Трусов А. А., Войтылов В. В., Клемешев С. А. Автоматизация метода слабых синусоидальных полей с синусоидальной модуляцией амплитуды для электрооптических исследований дисперсных систем // Естественные и математические науки в современном мире, 2015. — № 35. — С. 56-63
  4. Electro-optical effects in disperse systems in strong electric fields of arbitrary shape, S.A. Klemeshev, M.P. Petrov, A.K. Shalygin, A.A. Trusov, A.V. Voitylov, V.V. Vojtylov. // Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2014, — v. 456, — p. 114-119.
  5. Electro-optical effects in disperse systems in strong electric fields of arbitrary shape, S.A. Klemeshev, M.P. Petrov, A.K. Shalygin, A.A. Trusov, A.V. Voitylov, V.V. Vojtylov. // Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2014, — v. 456, — p. 114-119.
  6. Влияние размеров частиц на оптические и электрооптические свойства коллоидов, В.В. Войтылов, М. П. Петров, А.А. Спартаков, А.А. Трусов. // Оптика и Спектроскопия, 2013. — T. 114, — № 4, — c. 687-695
  7. Light scattering in colloids of diamond and graphite, S.A. Klemeshev, M.P. Petrov, A.A. Trusov, V.V. Vojtylov // Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2012, — v. 400, — p. 52-57
  8. Электрооптические свойства водных суспензий нанотрубок гидросиликата никеля, А.В. Войтылов, В.В. Войтылов, И.С. Долгов, С.А. Клемешев, Э.Н. Корыткова, Т.П. Масленникова, М.П.Петров, Л.Н. Пивоварова // Оптика и Спектроскопия 2012, — т. 112, — № 1, — с. 67-74,
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: M-6090-2013
ScopusID: 55808072487
ORCID: 0000-0002-1709-2437
SPIN-код: 7208-9745
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Rogozhin Vyacheslav B.

[su_row][su_column size="1/4"]


PhD, Senior teacher

[/su_column]

[su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"] The physics of liquid crystals and polymers. Main publications:
  1. S. G. Polushin, V. B. Rogozhin, E. I. Ryumtsev, and Yu. G. Galyametdinov. Electrooptical Properties of Mesogenic Rare_Earth Complexes in Isotropic Melts // ISSN 0012_5016, Doklady Physical Chemistry, 2014, Vol. 455, Part 2, pp. 64–66.С.Г. Полушин, В.Б. Рогожин, Е.И. Рюмцев, Ю.Г. Галяметдинов. Электрооптические свойства изотропных расплавов мезогенных комплексов редкоземельных металлов   // Доклады Академии наук, том 455, № 6, 2014. Стр.665-667.
  2. Полушин С. Г., Захряпа А. В., Рогожин В. Б., Полушина Г. Е., Шевлягин А. А., Палёнов М. Е., Коломиец И. П., Комолкин А. В., Рюмцев Е. И. Электрооптические свойства изотропных расплавов смектических 4-н-алкил-4`-цианбифенилов // Жидкие кристаллы и их практическое использование. -- 2014. -- T. 14, № 3. -- C. 27-34.
  3. С.Г. Полушин, В.Б. Рогожин, А.В. Захряпа, Т.С. Фискевич, Е.И. Рюмцев, Н.И. Бойко Ориентационная динамика расплава смектического гребнеобразного полимера // Журнал «Жидкие кристаллы и их практическое использование», Иваново, 2013, вып.1(43), С.36-42.
  4. Е.В.Яшкова, А.А.Насибулин, Т.Г.Волкова, М.Р.Киселев, Ю.В.Соболева, С.А.Сырбу, А.В.Захряпа, В.Б.Рогожин, С.Г.Полушин, А.В.Комолкин, М.В.Клюев. Изучение мезоморфизма сложных эфиров п-(N-глюкозилиден)аминобензойной кислоты // Журнал «Жидкие кристаллы и их практическое использование», Иваново, 2013, вып.1(43), С. 20-27.
  5. С.Г. Полушин, В.Б. Рогожин, А.В. Захряпа, Е.И. Рюмцев, Н.И. Бойко. Структурный переход в изотропной фазе смектического полиакрилата // Жидкие кристаллы и их практическое использование», Иваново, 2012, вып.4(42), С.81-85.
  6. S. G. Polushin, V. B. Rogozhin, A. V. Zakhryapa, and E. I. Ryumtsev. Electric Birefringence in a Polystyrene Melt // Doklady Physical Chemistry, 2011, Vol. 438, Part 1, pp. 83–85. Полушин С.Г., Рогожин В.Б., Захряпа А.В., Рюмцев Е.И. Электрическое двойное лучепреломление в расплаве полистирола // Журнал Доклады Академии Наук, 2011, том 438, № 1, с. 59–61.
  7. V. B. Rogozhin, A. V. Lezov, S. G. Polushin, and E. I. Ryumtsev Effect of the Microphase Separation on the Electro-Optical Properties of Isotropic Melts of Thermotropic Liquid Crystals // Russian Journal of Physical Chemistry A, 2011, Vol. 85, No. 11, pp. 1867–1871. В.Б. Рогожин, А.В. Лезов, С.Г. Полушин, Е.И. Рюмцев. Влияние микрофазного разделения на электрооптические свойства изотропных расплавов термотропных жидких кристаллов // Журнал физической химии, Т.85, №11, С. 2005-2010, 2011г.
  8. Полушин С.Г., Захряпа А.В., Рогожин В.Б., Рюмцев Е.И. Температурная зависимость ближнего ориентационного порядка в расплаве полистирола // Жидкие кристаллы и их практическое использование, Иваново, 2010. Вып. 4 (34). С. 77 - 82.
  9. Polushin S. G., Beloborodov I., Rjumtsev E. I., Kozlovsky M. Existence of Two Different Isotropic Phases as a Reason for Bistable Phase Behavior of an LC Side Chain Polymethacrylate // Macromolecular Rapid Communication, 2008, 29, 224-228
  10. Полушин С. Г., Белобородов И. В., Рюмцев Е.И. Эффект Керра в изотропном расплаве смектического полиметакрилата с хиральными боковыми группами // Жидкие кристаллы и их практическое использование. 2007, вып. 2 (20), с. 83-91
  11. Polushin S.G., Rogozhin V.B., Ryumtsev E.I., Lezov A.V. THE KERR EFFECT IN THE VICINITY OF THE TRANSITION FROM THE ISOTROPIC TO SMECTIC A PHASE // Russian Journal of Physical Chemistry A. 2006. Т. 80. № 7. С. 1016-1020.Полушин С. Г., РогожинВ.Б., Рюмцев Е. И.,. Лезов А. В. Эффект Керра в окрестности перехода из изотропной в смектическую А фазу // Журнал физической химии, 2006, т. 80, № 7. с. 1164-1169
  12. Полушин С. Г., Рудаков Ю. Р., Филиппов С. К., Рюмцев Е. И. Ограничение ближнего ориентационного порядка в расплаве аморфного сополимера с мезогенными боковыми группами // Жидкие кристаллы и их практическое использование, 2006, вып. 1-2 с. 82-86
  13. Полушин С. Г., Рюмцев Е. И., Лезов А. В. Влияние ориентационного и трансляционного порядков на электрооптические свойства изотропных расплавов смектиков А // Жидкие кристаллы и их практическое использование, 2005, выпуск 3-4, с. 110 – 114

[/restab]

[restab title="Teaching" ]

Lectures:

  • "Dynamics of Polymers" (Masters profile "Functional Nanomaterials Physics");
  • "Problems of the theory of relaxation properties of homogeneous and heterogeneous polymer nano" - post-graduate courses, 1st year;
  • "Fundamentals of physical materials diagnostic methods", part 2 - Bachelor, 2nd year (AMF);
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: J-7327-2013
ScopusID: 15027480500
ORCID: 0000-0003-2223-9293
SPIN-код: 8337-5593
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Osinnikova Dariya N.

[su_row][su_column size="1/4"]


PhD, Assistant professor email: osinnikovadasha на yandex.ru [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity"   active="active"]

Interaction of nucleic acids (DNA, RNA) from the low molecular weight biologically active compounds. (More)

[/restab][/restabs] [/su_column][/su_row]

Silanteva Irina A.

[su_row][su_column size="1/4"]


PhD, Assistant professor

email: sila3 на yandex.ru,

i.silanteva на spbu.ru

[/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity"  active="active"]
  1. Simulation of polymers (charged and uncharged, linear and branched) by entropic sampling with the Wang-Landau
  2. The Monte Carlo method for calculating path integrals.

(more)

Main publications:

  1. Энтропическое моделирование полимеров: цепь вблизи стенки, полиэлектролиты, полимерные звезды. П. Н. Воронцов-Вельяминов, А. А. Юрченко, М. А. Антюхова, И. А. Силантьева, А. Ю. Антипина. Высокомолекулярные соединения, серия С, 2013, том 55, №7, стр. 920-932.
  2. Thermodynamic Properties of Star Shaped Polymers Investigated with Wang-Landau Monte Carlo Simulations. I. A. Silantyeva, P. N. Vorontsov-Velyaminov. Macromolecular Symposia, 2012, 317-318, p. 267-275.
  3. Расчет плотности состояний и термических свойств полимерных цепей и звезд на решетке методом Монте-Карло с использованием алгоритма Ванга-Ландау. И. А. Силантьева, П. Н. Воронцов-Вельяминов. Вычислительные методы и программирование, 2011, т. 12, с. 397-408.
  4. Исследование решеточных моделей полимерных цепей и звезд методом Монте-Карло с использованием алгоритма Ванга-Ландау. И. А. Силантьева, П. Н. Воронцов-Вельяминов. Вестник СПбГУ. 2011., сер. 4, Вып. 4, с. 212-219.
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: N-1563-2013
ScopusID: 55343866300
ORCID: 0000-0002-3926-9846
SPIN-код: 6882-9506
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Sokolov Petr A.

[su_row][su_column size="1/4"]


PhD, Associate professor email: p.a.sokolov на spbu.ru [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity"  active="active"]
  • Microscopy (AFM, EM, STM) of DNA and proteins.
  • Supramolecular structures based on DNA and its ligands.
  • Electro-physical properties of DNA coupled with silicon, gold and mica.
  • Physical properties and mechanisms of the formation of amyloids (including prion proteins).
  • Biosensors (at the moment I am the head of the grant of the Russian Science Foundation “Supersensitive ATP sensor based on DNA aptamers and metal nanoparticles.”, two undergraduates were involved in the work on this project: Popova M. A. & Shalygin V. E.) .
Publications:
  1. Sokolov, P. A., Bondarev, S. A., Belousov, M. V., Zhouravleva, G. A. & Kasyanenko, N. A. Sup35NMp morphology evaluation on Au, Si, formvar and mica surfaces using AFM, SEM and TEM. J. Struct. Biol. 201, 5–14 (2018).
  2. Kasyanenko, N. et al. DNA binding with acetate bis(1,10-phenanthroline) silver(i) monohydrate in a solution and metallization of formed structures. Polymers (Basel). 9, 211 (2017).
  3. Sokolov, P. A., Belousov, M. V., Bondarev, S. A., Zhouravleva, G. A. & Kasyanenko, N. A. FibrilJ: ImageJ plugin for fibrils’ diameter and persistence length determination. Comput. Phys. Commun. 214, 199–206 (2017).
  4. Kasyanenko, N. et al. DNA Modified with Metal Nanoparticles: Preparation and Characterization of Ordered Metal-DNA Nanostructures in a Solution and on a Substrate. J. Nanomater. 2016, (2016).
  5. Sokolov, P. A., Demidov, V. N., Vedeneeva, L. N., Pakhomova, T. V. & A.Kasyanenko, N. Abstracts. Eur. Biophys. J. 44, 43–248 (2015).
  6. Sokolov, P., Demidov, V., Vedeneeva, L. & Kasyanenko, N. Adsorption of 1,10-Phenanthroline-2,9-dithiol on Gold and Silicon Surfaces. J. Phys. Chem. C 119, 24358–24363 (2015).
  7. Bazlov, N. V., Vyvenko, O. F., Sokolov, P. A., Kas’Yanenko, N. A. & Petrov, Y. V. Charge-controlled fixation of DNA molecules on silicon surface and electro-physical properties of Au-DNA-Si interface. Appl. Surf. Sci. 267, 224–228 (2013).
  8. Demidov, V. N. et al. Reaction with DNA and Pharmacologic Activity of 1,10-Phenanthroline and Electron-Rich 1,10-Phenanthrocyanine Complexes of d-Elements. ISSN Russ. J. Gen. Chem. Ross. Khimicheskii Zhurnal 82, 1070–3632 (2012).
  9. Puchkova, A. O., Sokolov, P. A. & Kasyanenko, N. A. Metallization of dna on the surface. J. Struct. Chem. 52, (2011).
  10. Puchkova, A. O., Sokolov, P., Petrov, Y. V. & Kasyanenko, N. A. Metallization of DNA on silicon surface. J. Nanoparticle Res. 13, 3633–3641 (2011).
  11. Пучкова, А. О., Соколов, П. А., Лопатько, К. Г. & Касьяненко, Н. А. Фиксация ДНК на поверхности кремния для создания матрицы при формировании нанопроволок. ТРУДЫ МФТИ 3, 43–48 (2011).
  12. Sokolov, P. A., Bazlov, N. V., Puchkova, A. O., Vyvenko, O. F. & Kasyanenko, N. A. DNA immobilization on n-type silicon surface and electrophysical properties of Au-DNA-(n-Si) structures. Prot. Met. Phys. Chem. Surfaces 47, 566–571 (2011).
  13. Демидов, В. Н. et al. Взаимодействие С Днк И Фармакологическая Активность 1,10-Фенантролиновых И Электрон-Избыточных 1,10-Фенантроцианиновых Комплексов D-Элементов. Рос. Хим. Ж. LIV, 135 (2010).

[/restab]

[restab title="Teaching" ] Lectures: "Microscopy of nanostructures", "Methods of direct observation of biological objects" and "Nanosystem research methods." [/restab] [restab title="Author IDs"] [su_table]
ResearcherID: O-1128-2013
ScopusID: 54403795400
ORCID: 0000-0003-4819-3211
SPIN-код: 4546-9060
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Perevyazko Igor Yu.

[su_row][su_column size="1/4"]Igor_Perevyazko2


  PhD, Assistant professor E-mail: igor.perevyazko на gmail.com [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity"  active="active"]

The research interests are focused on the study of molecular and conformational properties of synthetic and biopolymers. Investigation of supramolecular polymers and metalo-supomoleuclar structures. Fabrication of biocompatible organic and inorganic nanoparticles. Self-assembling polymer systems for gene delivery. Protein characterization and association.

Main publications:

  1. Seiwert, J.; Leibig, D.; Kemmer-Jonas, U.; Bauer, M.; Perevyazko, I.; Preis, J.; Frey, H. Hyperbranched Polyols via Copolymerization of 1,2-Butylene Oxide and Glycidol: Comparison of Batch Synthesis and Slow Monomer Addition Macromolecules 2016, 49, (1), 38-47.
  2. Perevyazko, I.; Seiwert, J.; Schömer, M.; Frey, H.; Schubert, U. S.; Pavlov, G. M. Hyperbranched Poly(ethylene glycol) Copolymers: Absolute Values of the Molar Mass, Properties in Dilute Solution, and Hydrodynamic Homology Macromolecules 2015, 10.1021/acs.macromol.5b01020
  3. Fruhnert, M.; Kretschmer, F.; Geiss, R.; Perevyazko, I.; Cialla-May, D.; Steinert, M.; Janunts, N.; Sivun, D.; Hoeppener, S.; Hager, M. D.; Pertsch, T.; Schubert, U. S.; Rockstuhl, C. Synthesis, Separation, and Hypermethod Characterization of Gold Nanoparticle Dimers Connected by a Rigid Rod Linker The Journal of Physical Chemistry C 2015, doi/10.1021/acs.jpcc.5b04346
  4. Sandmann, B.; Happ, B.; Perevyazko, I.; Rudolph, T.; Schacher, F. H.; Hoeppener, S.; Hager, M.; Mansfeld, U.; Moszner, N.; Fischer, U.; Burtscher, P.; Schubert, U. S. Incorporation of Core-shell Particles in Methacrylate based Composites for an Improvement of the Mechanical Properties Polymer Chemistry 2015, doi/10.1039/c4py01544d
  5. van Bracht, E.; Raave, R.; Perevyazko, I. Y.; Versteeg, E. M.; Hafmans, T. G.; Schubert, U. S.; Oosterwijk, E.; van Kuppevelt, T. H.; Daamen, W. F. Albumin based lyophilisomes novel protein capsules as drug delivery system. Eur. J. Pharm. Biopharm. 2015, doi.org/10.1016/j.ejpb.2015.04.020
  6. Vollrath, A.; Pretzel, D.; Pietsch, C.; Perevyazko, I.; Menzel, R.; Schubert, S.; Pavlov, G. M.; Weiss, D.; Beckert, R.; Schubert, U. S., Preparation, cellular internalization and biocompatibility of highly fluorescent PMMA nanoparticles. Macromol. Rapid Commun. 2013, 33, 1791-1797.
  7. Perevyazko, I. Y.; Vollrath, A.; Pietsch, C.; Schubert, S.; Pavlov, G. M.; Schubert, U. S., Nanoprecipitation of poly(methyl methacrylate)-based nanoparticles: Effect of the molar mass and polymer behavior. J. Polym. Sci., Part A: Polym. Chem. 2012, 50, 2906-2913.
  8. Perevyazko, I. Y.; Bauer, M.; Pavlov, G. M.; Hoeppener, S.; Schubert, S.; Fischer, D.; Schubert, U. S., Polyelectrolyte complexes of DNA and linear PEI: Formation, composition and properties. Langmuir 2012, 28, 16167-16176.
  9. Happ, B.; Pavlov, G. M.; Perevyazko, I.; Hager, M. D.; Winter, A.; Schubert, U. S., Induced charge effect by co(ii) complexation on the conformation of a copolymer containing a bidentate 2-(1,2,3-triazol-4-yl)pyridine chelating unit. Macromol. Chem. Phys. 2012, 213, 1339-1348.
  10. Weber, C.; Babiuch, K.; Rogers, S.; Perevyazko, I. Y.; Hoogenboome, R.; Schubert, U. S., Unexpected radical polymerization behavior of oligo(2-ethyl-2-oxazoline) macromonomers Polymer Chemistry 2012, 3, 2976-2985.
  11. Perevyazko, I. Y.; Delaney, J. T.; Vollrath, A.; Pavlov, G. M.; Schubert, S.; Schubert, U. S., Examination and optimization of the self-assembly of biocompatible, polymeric nanoparticles by high-throughput nanoprecipitation. Soft Matter 2011, 7, 5030-5035.
  12. Pavlov, G. M.; Perevyazko, I. Y.; Okatova, O. V.; Schubert, U. S., Conformation parameters of linear macromolecules from velocity sedimentation and other hydrodynamic methods. Methods 2011, 54, 124-135.
  13. Bloksma, M. M.; Weber, C.; Perevyazko, I. Y.; Kuse, A.; Baumgärtel, A.; Vollrath, A.; Hoogenboom, R.; Schubert, U. S., Poly(2-cyclopropyl-2-oxazoline): From rate acceleration by cyclopropyl to thermoresponsive properties. Macromolecules 2011, 44, 4057-4064.
  14. Perevyazko, I.; Vollrath, A.; Hornig, S.; Pavlov, G. M.; Schubert, U. S., Characterization of poly(methyl methacrylate) nanoparticles prepared by nanoprecipitation using analytical ultracentrifugation, dynamic light scattering, and scanning electron microscopy. J. Polym. Sci., Part A: Polym. Chem. 2010, 48, 3924-3931.
  15. Pavlov, G. M.; Perevyazko, I.; Schubert, U. S., Velocity sedimentation and intrinsic viscosity analysis of polystyrene standards with a wide range of molar masses. Macromol. Chem. Phys. 2010, 211, 1298-1310.
  16. Erdmenger, T.; Perevyazko, I.; Vitz, J.; Pavlov, G.; Schubert, U. S., Microwave-assisted synthesis of imidazolium ionenes and their application as humidity absorbers. J. Mater. Chem. 2010, 20, 3583-3585.
  17. Kasyanenko, N.; Mukhin, D.; Perevyazko, I., Conformational changes of a DNA molecule induced by metal complexes formed in solution. Polymer Science Series C 2010, 52, 122-133.
  18. Kasyanenko, N. A.; Perevyazko, I. Y.; Blokova, M. I.; Zyryanova, R. M. Influence of divalent metal ions on DNA conformational transitions in water-ethanol solution Biophysics 2008, 53, (2), 229-234
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: F-3377-2012
ScopusID: 36008957900
ORCID: 0000-0002-4683-6503
SPIN-код: 4721-7090
[/su_table] [/restab][/restabs] [/su_column][/su_row]       PhD, Assistant professor Email: igor.perevyazko at gmail.com

Scientific activity:

The research interests are focused on the study of molecular and conformational properties of synthetic and biopolymers. Investigation of supramolecular polymers and metalo-supomoleuclar structures. Fabrication of biocompatible organic and inorganic nanoparticles. Self-assembling polymer systems for gene delivery. Protein characterization and association.

Main publications:

  1. Seiwert, J.; Leibig, D.; Kemmer-Jonas, U.; Bauer, M.; Perevyazko, I.; Preis, J.; Frey, H. Hyperbranched Polyols via Copolymerization of 1,2-Butylene Oxide and Glycidol: Comparison of Batch Synthesis and Slow Monomer Addition Macromolecules 2016, 49, (1), 38-47.
  2. Perevyazko, I.; Seiwert, J.; Schömer, M.; Frey, H.; Schubert, U. S.; Pavlov, G. M. Hyperbranched Poly(ethylene glycol) Copolymers: Absolute Values of the Molar Mass, Properties in Dilute Solution, and Hydrodynamic Homology Macromolecules 2015, 10.1021/acs.macromol.5b01020
  3. Fruhnert, M.; Kretschmer, F.; Geiss, R.; Perevyazko, I.; Cialla-May, D.; Steinert, M.; Janunts, N.; Sivun, D.; Hoeppener, S.; Hager, M. D.; Pertsch, T.; Schubert, U. S.; Rockstuhl, C. Synthesis, Separation, and Hypermethod Characterization of Gold Nanoparticle Dimers Connected by a Rigid Rod Linker The Journal of Physical Chemistry C 2015, doi/10.1021/acs.jpcc.5b04346
  4. Sandmann, B.; Happ, B.; Perevyazko, I.; Rudolph, T.; Schacher, F. H.; Hoeppener, S.; Hager, M.; Mansfeld, U.; Moszner, N.; Fischer, U.; Burtscher, P.; Schubert, U. S. Incorporation of Core-shell Particles in Methacrylate based Composites for an Improvement of the Mechanical Properties Polymer Chemistry 2015, doi/10.1039/c4py01544d
  5. van Bracht, E.; Raave, R.; Perevyazko, I. Y.; Versteeg, E. M.; Hafmans, T. G.; Schubert, U. S.; Oosterwijk, E.; van Kuppevelt, T. H.; Daamen, W. F. Albumin based lyophilisomes novel protein capsules as drug delivery system. Eur. J. Pharm. Biopharm. 2015, doi.org/10.1016/j.ejpb.2015.04.020
  6. Vollrath, A.; Pretzel, D.; Pietsch, C.; Perevyazko, I.; Menzel, R.; Schubert, S.; Pavlov, G. M.; Weiss, D.; Beckert, R.; Schubert, U. S., Preparation, cellular internalization and biocompatibility of highly fluorescent PMMA nanoparticles. Macromol. Rapid Commun. 2013, 33, 1791-1797.
  7. Perevyazko, I. Y.; Vollrath, A.; Pietsch, C.; Schubert, S.; Pavlov, G. M.; Schubert, U. S., Nanoprecipitation of poly(methyl methacrylate)-based nanoparticles: Effect of the molar mass and polymer behavior. J. Polym. Sci., Part A: Polym. Chem. 2012, 50, 2906-2913.
  8. Perevyazko, I. Y.; Bauer, M.; Pavlov, G. M.; Hoeppener, S.; Schubert, S.; Fischer, D.; Schubert, U. S., Polyelectrolyte complexes of DNA and linear PEI: Formation, composition and properties. Langmuir 2012, 28, 16167-16176.
  9. Happ, B.; Pavlov, G. M.; Perevyazko, I.; Hager, M. D.; Winter, A.; Schubert, U. S., Induced charge effect by co(ii) complexation on the conformation of a copolymer containing a bidentate 2-(1,2,3-triazol-4-yl)pyridine chelating unit. Macromol. Chem. Phys. 2012, 213, 1339-1348.
  10. Weber, C.; Babiuch, K.; Rogers, S.; Perevyazko, I. Y.; Hoogenboome, R.; Schubert, U. S., Unexpected radical polymerization behavior of oligo(2-ethyl-2-oxazoline) macromonomers Polymer Chemistry 2012, 3, 2976-2985.
  11. Perevyazko, I. Y.; Delaney, J. T.; Vollrath, A.; Pavlov, G. M.; Schubert, S.; Schubert, U. S., Examination and optimization of the self-assembly of biocompatible, polymeric nanoparticles by high-throughput nanoprecipitation. Soft Matter 2011, 7, 5030-5035.
  12. Pavlov, G. M.; Perevyazko, I. Y.; Okatova, O. V.; Schubert, U. S., Conformation parameters of linear macromolecules from velocity sedimentation and other hydrodynamic methods. Methods 2011, 54, 124-135.
  13. Bloksma, M. M.; Weber, C.; Perevyazko, I. Y.; Kuse, A.; Baumgärtel, A.; Vollrath, A.; Hoogenboom, R.; Schubert, U. S., Poly(2-cyclopropyl-2-oxazoline): From rate acceleration by cyclopropyl to thermoresponsive properties. Macromolecules 2011, 44, 4057-4064.
  14. Perevyazko, I.; Vollrath, A.; Hornig, S.; Pavlov, G. M.; Schubert, U. S., Characterization of poly(methyl methacrylate) nanoparticles prepared by nanoprecipitation using analytical ultracentrifugation, dynamic light scattering, and scanning electron microscopy. J. Polym. Sci., Part A: Polym. Chem. 2010, 48, 3924-3931.
  15. Pavlov, G. M.; Perevyazko, I.; Schubert, U. S., Velocity sedimentation and intrinsic viscosity analysis of polystyrene standards with a wide range of molar masses. Macromol. Chem. Phys. 2010, 211, 1298-1310.
  16. Erdmenger, T.; Perevyazko, I.; Vitz, J.; Pavlov, G.; Schubert, U. S., Microwave-assisted synthesis of imidazolium ionenes and their application as humidity absorbers. J. Mater. Chem. 2010, 20, 3583-3585.
  17. Kasyanenko, N.; Mukhin, D.; Perevyazko, I., Conformational changes of a DNA molecule induced by metal complexes formed in solution. Polymer Science Series C 2010, 52, 122-133.
  18. Kasyanenko, N. A.; Perevyazko, I. Y.; Blokova, M. I.; Zyryanova, R. M. Influence of divalent metal ions on DNA conformational transitions in water-ethanol solution Biophysics 2008, 53, (2), 229-234

Ramazanov Ruslan R.

[su_row][su_column size="1/4"]DSC017321


PhD, Senior teacher email: r.ramazanov на spbu.ru тел. (812)428-99-71 [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity" active="active"] Theoretical investigation of spatial and electronic properties of biopolymer complexes with low molecular ligands [details] Main publications:
  1. R. R. Ramazanov, A. I. Kononov, A. M. Nesterenko, J. R. Shakirova, I. O. Koshevoy, E. V. Grachova, and S. P. Tunik. Luminescence Switching of a Gold–Copper Supramolecular Complex: A Physical Insight. J. Phys. Chem. C 2016, 120, 25541−25547 (PDF)
  2. Ruslan R. Ramazanov, Tomash S. Sych, Zakhar V. Reveguk, Dmitriy A. Maksimov, Artem A. Vdovichev, Alexei I. Kononov. Ag–DNA Emitter: Metal Nanorod or Supramolecular Complex? Journal of Physical Chemistry Letters, 2016, 7, pp 3560–3566 (PDF)
  3. A A Vdovichev, T S Sych, Z V Reveguk, A A Smirnova, D A Maksimov, R R Ramazanov and A I Kononov. Structure of fluorescent metal clusters on a DNA template. Journal of Physics Conference Series, 2016, 741(1), pp 012069 (PDF)
  4. Vdovichev A.A., Ramazanov R.R., Kononov A.I. Structural model of gold and silver fluorescent clusters. Computer Research and Modeling, 2015, vol. 7, no. 2, pp. 263-269 (PDF)
  5. Ruslan R. Ramazanov, Dmitriy A. Maksimov, and Alexei I. Kononov. Noncanonical Stacking Geometries of Nucleobases as a Preferred Target for Solar Radiation. J. Am. Chem. Soc. 2015, 137 (36), pp 11656–11665 (PDF)
  6. Kasyanenko N, Lysyakova L, Ramazanov R, Nesterenko A, Yaroshevich I, Titov E, Alexeev G, Lezov A, Unksov I. Conformational and phase transitions in DNA-photosensitive surfactant solutions: Experiment and modeling. Biopolymers. 2015, 103(2):109-22 (PDF)
  7. Ramazanov R.R., Kononov A.I., Heterogeneity of Threadlike Shape of DNA-Stabilized Silver Fluorescent Clusters, Biophysical Journal, 2014, 106(2), 806a.
  8. Volkov, I.L.; Ramazanov, R.R.; Ubyvovk, E.V.; Rolich, V.I.; Kononov, A.I.; Kasyanenko, N.A. Fluorescent silver nanoclusters in condenced DNA, ChemPhysChem , 2013, 14 (15), 3543–3550. (PDF)
  9. R.R.Ramazanov and A.I.Kononov. Excitation Spectra Argue for Threadlike Shape of DNA-Stabilized Silver Fluorescent Clusters, J. Phys. Chem. C, 2013 , 117 (36), 18681–18687. (PDF)
[/restab] [restab title="Teaching"] Scientific supervision: Bachelors thesis: 
  • "The influence of the parameters of the equilibrium geometry of nucleotide monomers in the absorption spectra of nucleic acid fragments."  Luneva Yu. (2016)
  • "Molecular dynamics of short DNA oligomers." Chernogorsky V (2015)
  • "Excited states of noble metal clusters." Vdovichev A (2014)
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: J-9397-2013
ScopusID: 56159827000
ORCID: 0000-0002-3019-8762
SPIN-код: 7236-9848
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Bakulev Vladimir M.

[su_row][su_column size="1/4"]


PhD, Senior researcher E-mail:      v.bakulev@spbu.ru     vbakulev@inbox.ru   Tel:      428-43-79       [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity"   active="active"] Luminescent spectroscopy Main publications:
  1. Рапопорт В.Л., Бакулев В.М. О природе различия спектров возбуждения люминесценции и поглощения цитозина и его производных. Оптика и спектроскопия, 1982, т.52, с.1094-1096
  2. Рапопорт В.Л., Бакулев В.М Спектральные проявления конформационной гетерогенности в цитидиновом динуклеотиде. Обнаружение фракции с сильным экситонным взаимодействием между основаниями. Молекулярная биология, 1984, т.18, № 2, 382-390
  3. Андреев А.В., Котова Л.В., Михайлова Н.П., Бакулев В.М. Вьюнов К.А, Мосейчук А.В. Анализ процесса фотоизомеризации провитаминов группы D в витамин в биомассе дрожжей Saccharomyces Cerevisiae. Хим.-фарм. журнал, 1986, № 4, с.488-491
  4. Дурасова Е.Н., Михайлова Н.П., Вьюнов К.А., Бакулев В.М., Соколов В.М., Махросенкова М.О., Хромов-Борисов Н.Н. Изучение устойчивости дрожжей Candida Guilliemondi к полиеновым антибиотикам. Микробиология, 1986, № 4, с.607-611
  5. Затонская В.М., Михайлова Н.П., Бакулев В.М., Чичикалова М.М., Вьюнов К.А., Методика количественного определения дельта-5,7-стеринов в неомыляемых липидных фракциях. Прикладная биохимия и микробиология, 1987, вып.4, с.522-526
  6. Kononov A.I., Bakulev V.M., Rapoport V.L. Exciton effects in dinucleotides and polynucleotides. J.Photochem.Photobiol., B:Biology, 1993, Vol.19, p.139-144.
  7. Kononov A.I., Bakulev V.M. Red-shifted fluorescence from polyguanylic acid in aqueous solution at room temperature. J.Photochem.Photobiol., B:Biology, 1996, Vol.34, 211-216
  8. Жуковский А.П., Бакулев В.М., Ровнов Н.В., Жуковский М.А. Исследование состояния триптофана в водных растворах диметилсульфоксида методом флуоресценции. Ж. структ. химии, 1997, том 38, №1, с. 98-103
  9. Zhukovskii A.P., Bakulev V.M., Zhukovskii M.A.,and Rovnov N.V.,  Fluorescence study of the state of triptophane in aqueous dimethylsulfoxide. J.Struct.Chem., 1997, Vol.38, No.1, 78-82.
  10. Schurholz, T; Siebrasse, B; Bakulev, V. M.; et al. Purification and functional analysis of the anion channel (CAC) excreted by the plant pathogen Clavibacter michiganense ssp. Nebraskense. 42nd Annual Meeting 22-26 February 1998 Kansas City, Missouri. BIOPHYSICAL JOURNAL  Volume: 74   Issue: 2   Pages: A31-A31   Part: 2   Published: FEB 1998     Accession Number: WOS:000073445400165   ISSN: 0006-3495   IDS Number: ZL549
  11. Изосимов И.Н., Смирнов В.В., Бакулев В.М., Проявление изотопных эффектов в спектрах поглощения  144Sm3+ и 154Sm3+  в растворах. Радиохимия, 1998, т.40, вып.3, 198-202
  12. Izosimov I.N., Smirnov V.V., Bakulev V.M., Isotope effect in the absorption spectra of 144Sm3+ and 154Sm3+  ions in solutions. Radiochemistry, 1998, Vol. 40, No. 3, pp.204-208.
  13. Бакулев В.М. Новый подход к объяснению закономерности изменений межпланетных расстояний. Вестн. С.-Петербургского ун-та. Сер. 4: Физика, химия 2004, вып. 3, с. 77-82
  14. Бакулев В.М. Функции распределений в Солнечной системе. Вестн. С-Петербургского ун-та. Сер. 4: Физика, химия 2006, вып. 1, с. 47-53
  15. Букина М.Н., Бакулев В.М., Бармасов А.В., Холмогоров В.Е. Влияние внешнего магнитного поля на люминесценцию водного раствора хлорида гадолиния. Вестник Санкт-Петербургского ун-та. Сер. 4: Физика, химия,  2007, вып. 4, с. 109-111
  16. Iztok Turel, Jakob Kljun, Franc Perdih, Elena Morozova, Vladimir Bakulev, Nina Kasyanenko, Jo Ann W. Byl, and Neil Osheroff   First ruthenium organometallic complex of antibacterial agent ofloxacin. Crystal structure and interactions with DNA. Inorganic Chemistry, 2010, 49 (23), pp 10750–10752
  17. Яфясов А.М., Бакулев В.М., Коноров П.П., Божевольнов В.Б. Электрофизические свойства структур диэлектрик- полупроводник на основе германия с диэлектрическим слоем полинуклеотидов и их мономерных компонент на его поверхности. ФТП, 2011, том 45,   вып. 12, с. 1617-1620
  18. A.M.Yafyasov ,V. M. Bakulev, P. P. Konorov, V. V. Bogevolnov. Electrical properties of germanium-based insulator-semiconductor structures with an insulating layer of polynucleotides, and their monomer components on the surface. Semiconductors. 2011, Volume 45, Issue 12, pp 1555-1558       DOI  1134/S1063782611120165
  19. Бакулев В.М., Ревегук З. В., Чжан Цюши, Касьяненко Н. А. Люминесценция комплексов DAPI-ДНК при разных ионных силах раствора. Вестник СПбГУ, 2014, Сер. 4, Т. 1 (59), вып. 4, 491-497.
  20. Касьяненко Н. А., Варшавский  М. С.,  Чжан Цюши, Алексеев Г. А., Бакулев В.М. К вопросу о металлизации ДНК в растворе. Вестник СПбГУ, 2014, Сер. 4, Т. 1 (59), вып. 4, 498-508.
  21. Букина М.Н., Бакулев В.М., Бармасов А.В., Жахов А. В., Ищенко А. М. Спектрально-люминесцентные проявления изменения конформации белка БТШ70 в процессе тепловой денатурации. Оптика и Спектроскопия, 2015, том 118, № 6, с. 930-932.
  22. N. Bukina, V. M. Bakulev, A. V. Barmasov, A. V. Zhakhov, and A. M. Ishchenko Luminescence Diagnostics of Conformational Changes of the Hsp70 Protein in the Course of Thermal Denaturation. Optics and Spectroscopy  2015, Vol. 118, No. 6,  899-901   DOI: 10.1134/S0030400X15060065
[/restab] [restab title="Teaching"] Lectures:
  • "The molecular photobiology" (16 hours) for the graduate of the Physics Department of SPSU (up to 2009)
  • Physics practice (160 hours) for 1st year students of chemical St. Petersburg State University (until 2014)
Scientific supervision: PhD thesis:
  • Кононов А. И. "Исследование возбужденных электронных состояний в полинуклеотидах и комплексах ДНК с красителями" (2001)
Master thesis:
  • Перейра В. М. "Исследование люминесценции ВУФ-облученных водных растворов триптофана и аденозина" (1998)
  • Селихова Л. В. "Исследование взаимодействия профлавина с полиадениловой кислотой люминесцентным методом" (1993)
Bachelors diplomas:
  • Яйлова В. М. "Исследование взаимодействия этидиум бромида с полиадениловой кислотой люминесцентным методом" (1995)
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: O-8786-2015
ScopusID: 7004005902
ORCID: 0000-0001-9522-504X
SPIN-код: 8329-9910
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Lezov Alexei A.

[su_row][su_column size="1/4"]lezov


PhD, Senior researcher  e-mail: a.a.lezov на spbu.ru [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity"  active="active"] Studies of synthetic and biological polymers as well as their complexes by methods of  dynamic and static light scattering. Main publications:
  1. Tsvetkov, N.V., Mikhailova, M.E., Lebedeva, E.V., Lezov, A.A., Rogozhin, V.B., Rotinyan, T.A. Influence of the strength of polarizing electric field on free relaxation of electric birefringence in poly(butyl-isocyanate) solutions (2016) Chemical Physics Letters, 648, pp. 137-142. DOI: 10.1016/j.cplett.2016.02.017
  2. Tsvetkov, N.V., Mikusheva, N.G., Lezov, A.A., Gubarev, A.S., Mikhailova, M.E., Podseval'Nikova, A.N., Akhmadeeva, L.I., Lebedeva, E.V., Zorin, I.M., Shcherbinina, T.M., Bilibin, A.Y. Molecular, conformational, and optical characteristics of poly(cetylammonium-2-acrylamido-2-methylpropanesulfonate) obtained by micellar polymerization (2016) European Polymer Journal, 75, pp. 251-263. DOI: 10.1016/j.eurpolymj.2015.12.022
  3. Tsvetkov, N.V., Fetin, P.A., Lezov, A.A., Gubarev, A.S., Achmadeeva, L.I., Lezova, A.A., Zorin, I.M., Bilibin, A.Yu. Colloid solution of surfactant monomers and polyelectrolyte: Polymerization and properties of the resulting interpolyelectrolyte complexes(2015) Journal of Molecular Liquids, 211, pp. 239-246. DOI: 10.1016/j.molliq.2015.07.003
  4. Nekrasova, T.N., Andreeva, L.N., Lezov, A.A., Bezrukova, M.A., Nazarova, O.V., Zolotova, Y.I., Tsvetkov, N.V., Panarin, E.F.Optical and hydrodynamic properties of solutions of copolymers of N,N-dimethylaminoethyl methacrylate and 2-deoxy-2-methacrylamido-D-glucose that contain silver particles (2015) Polymer Science - Series A, 57 (2), pp. 103-114. DOI: 10.1134/S0965545X15020121
  5. Kasyanenko, N., Lysyakova, L., Ramazanov, R., Nesterenko, A., Yaroshevich, I., Titov, E., Alexeev, G., Lezov, A., Unksov, I. Conformational and phase transitions in DNA - Photosensitive surfactant solutions: Experiment and modeling(2015) Biopolymers, 103 (2), pp. 109-122. DOI: 10.1002/bip.22575
  6. Tsvetkov, N.V., Lebedeva, E.V., Lezov, A.A., Podseval'Nikova, A.N., Akhmadeeva, L.I., Zorin, I.M., Bilibin, A.Yu.Macromolecules of poly-(12-acryloylaminododecanoic acid) in organic solvent: Synthesis and molecular characteristics(2014) Polymer (United Kingdom), 55 (7), pp. 1716-1723. DOI: 10.1016/j.polymer.2014.02.019
  7. Tsvetkov, N.V., Lebedeva, E.V., Lezov, A.A., Podseval'Nikova, A.N., Akhmadeeva, L.I., Mikhailova, M.E., Zorin, I.M., Makarov, I.A., Bilibin, A.Y. Conformational, optical, electro-optical, and dynamic characteristics of cross-linked poly(N-acryloyl-11-aminoundecanoic acid) (2014) Colloid and Polymer Science, pp. 2727-2733. DOI: 10.1007/s00396-014-3346-1
  8. Lezov, A.V., Polushina, G.E., Lezov, A.A., Izumrudov, V.A., Kuchkina, N.V., Yuzik-Klimova, E.Y., Shifrina, Z.B. Water-soluble polyelectrolyte complexes of pyridine-containing polyphenylene dendrimers (2013) Polymer Science - Series A, 55 (2), pp. 82-90. DOI: 10.1134/S0965545X13020065
  9. Pyshkina, O.A., Panova, T.V., Boeva, Z.A., Lezov, A.A., Polushina, G.E., Lezov, A.V., Sergeyev, V.G. Behavior of multiwalled carbon nanotubes functionalized with sulfo groups in aqueous salt solutions (2012) Nanotechnologies in Russia, 7 (11-12), pp. 629-634. DOI: 10.1134/S1995078012060122
  10. Lezov, A.A., Vlasov, P.S., Polushina, G.E., Lezov, A.V. Effect of chemical structure and charge distribution on behavior of polyzwitterions in solution (2012) Macromolecular Symposia, 316 (1), pp. 17-24. DOI: 10.1002/masy.201250603
  11. Lezov, A.V., Vlasov, P.S., Lezov, A.A., Domnina, N.S., Polushina, G.E. Molecular properties of poly(carboxybetaine) in solutions with different ionic strengths and pH values(2011) Polymer Science - Series A, 53 (11), pp. 1012-1018 DOI: 10.1134/S0965545X11110058
  12. Tsvetkov, N.V., Andreeva, L.N., Lebedeva, E.V., Strelina, I.A., Lezov, A.A., Podseval'Nikova, A.N., Mikusheva, N.G., Ivanova, V.O., Makarov, I.A., Zorin, I.M., Bilibin, A.Yu. Optical, dynamic, and electro-optical properties of poly(N-acryloyl-11- aminoundecanoic acid) in solutions (2011) Poly mer Science - Series A, 53 (8), pp. 666-677. DOI: 10.1134/S0965545X11080104
  13. Tsvetkov, N.V., Andreeva, L.N., Zorin, I.M., Bushin, S.V., Lebedeva, E.V., Strelina, I.A., Bezrukova, M.A., Lezov, A.A., Makarov, I.A., Bilibin, A.Yu. Synthesis, hydrodynamic, and conformational properties of poly(N-acryloyl-11-aminoundecanoic acid) in solutions (2011) Polymer Science - Series A, 53 (5), pp. 355-363. DOI: 10.1134/S0965545X11050087
  14. Lezov, A.V., Polushina, G.E., Lezov, A.A., Vlasov, P.S., Domnina, N.S. Molecular properties of the copolymers of N,N-diallyl-N,N-dimethylammonium chloride and maleic acid (2011) Polymer Science - Series A, 53 (2), pp. 93-101. DOI: 10.1134/S0965545X11020064
  15. Yevlampieva, N.P., Gorshkova, M.Yu., Volkova, I.F., Grigoryan, E.S., Lezov, A.A., Khurchak, A.P., Ryumtsev, E.I. Molecular properties of modified chitosan containing a quaternary amino group (2011) Polymer Science - Series A, 53 (2), pp. 124-132. DOI: 10.1134/S0965545X11020039
  16. Boeva, Zh.A., Pyshkina, O.A., Lezov, A.A., Polushina, G.E., Lezov, A.V., Sergeyev, V.G. Matrix synthesis of water-soluble polyaniline in the presence of polyelectrolytes (2010) Polymer Science - Series C, 52 (1), pp. 35-43. DOI: 10.1134/S1811238210010054
  17. Lezov, A.V., Polushina, G.E., Lezov, A.A., Pyshkina, O.A., Korovin, A.N., Sergeev, V.G. Molecular properties of sulfonated polyaniline (2010) Polymer Science - Series A, 52 (7), pp. 679-683. DOI: 10.1134/S0965545X10070011

[/restab]

[restab title="Teaching" ] Scientific supervision: Bachelors diplomas: "Interaction of cationic dendrimers with polybetaines in aqueous solutions." Byzova AA [/restab] [restab title="Author IDs"] [su_table]
ResearcherID: J-6738-2013
ScopusID: 36473556000
ORCID: 0000-0001-7960-6889
SPIN-код: 5589-4673
[/su_table] [/restab][/restabs] [/su_column][/su_row]

Pavlov Georgy M.

[su_row][su_column size="1/4"]pavlov


D.Sc., Senior researcher [/su_column] [su_column size="3/4"] [restabs alignment="osc-tabs-left" responsive="false"] [restab title="Scientific activity"  active="active"]
  • The study of the functional properties of synthetic and biological macromolecular compounds, establishing a link between the chemical structure and properties of macromolecules
  • Studying the properties of polyelectrolyte and polyelectrolyte complexes in an extremely wide range of ionic strength
  • Macromolecules of complex topologies (comb-shaped, star-shaped dendrimers, hyperbranched)
  • Influence of molecular characteristics of chain molecules on the properties of their films at the interface
  • Methodology of molecular hydrodynamics

Main publications: Author of chapters in monographs:

  • Pavlov G.M. “Investigation of cellulose and lignins by molecular hydrodynamic methods.” p.541-546, in Cellulose and cellulose derivatives: Physico-chemical aspects and industrial applications. Ed.by Y.E.Kennedy, G.O.Phillips, P.O.W.Williams, L.Piculell. Woodhead Publ.Ltd., Cambridge, England, 1995
  • Pavlov G.M., Grishchenko A.E. “Polysaccharide Film Technologies: Interfacial Order and Chain Rigidity.” Biotechnology and Genetic Engineering Reviews 1999, 16, 347-359.
  • Pavlov G.M., Perevyazko I., Okatova O.V., Schubert U.S. Conformation parameters of linear macromolecules by velocity sedimentation and other hydrodynamic methods. Methods 2011, 54, 124-135.
  • Pavlov G. M. “Hydrodynamic of Macromolecules: Conformation Zoning of General Macromolecules.” In Encyclopedia of Biophysics. Ed. by G.C.K. Roberts 2013, Springer Berlin Heidelberg. P. 1014-1024.
  • Pavlov G. M. Different levels of self-sufficiency of the velocity sedimentation method in the study of linear macromolecules. In Analytical Ultracentrifugation: Instrumentation, Software, and Applications. Eds. by S. Uchiyama, F. Arisaka, W.F. Stafford, and T. Laue, Springer Japan, 2016, pp. 269-307. (DOI: 10.1007/978-4-431-55985-6_14)
  • Pavlov G.M., Gubarev A.S. “Intrinsic Viscosity of Strong Linear Polyelectrolytes in Solutions of Low Ionic Strength and Its Interpretation.” In Advances in Physicochemical Properties of Biopolymers. Eds. M. A. Masuelli and D. Renard, Bentham Sci. Ed. 2016, Pp. 409-433.
Author of about 200 publications in scientific journals Main publications:
  1. Magarik S.Ya, Pavlov G.M., Fomin G.A. Hydrodynamic and optical properties of homologous series of styren-methyl methacrilate graft copolymers. Macromolecules, 1978, 11, 294-300.
  2. Pavlov G. M., Frenkel S. Ya. About the concentration dependence of macromolecule sedimentation coefficients. Vyskosomolecul. soedin., ser.B, 1982, 24, 178-180.
  3. Pavlov G. M., Kozlov A. N., Yakopson S. M., Usova S. V., Efros L. S. Birefringence and equilibrium rigidity of some polyamidbenzimidasoles. Polymer Sci.USSR 1985, 27, 1, 32-39.
  4. Pavlov G.M., Rowe A.J., Harding S.E. Conformation zoning of large molecules using the analytical ultracentrifuge. Trends in Analytical Chem. 1997, v. 16, N 7, p 401-405.
  5. Pavlov G.M., Korneeva E.V., Fedotov Yu. A. Draining and volume effects in the chains of semirigide sulfated aromatic polyamide. Polymer Sci. Ser. A. V.39, 1997, 1306-1311.
  6. Pavlov G.M., Korneeva E.V., Nepogodiev S.A., Jumel K., Harding S.E. Translational and rotational friction lactodendrimer molecules in solution. Polymer Sci. Ser. A. V.40, 1998, 1282-1289.
  7. Pavlov G. M. Evaluation of draining and volume effects in the interpretation of hydrodynamic data for linear macromolecules. Progr. Coll. Polym. Sci. 2002, 119, 149-158.
  8. Pavlov G., Finet S., Tatarenko K., Korneeva E., Ebel C. Conformation of heparin studied with macromolecular hydrodynamic methods and X-ray scattering. Europ. Biophysics J. 2003, 32, 437-449.
  9. Pavlov G.M., Grishchenko A.E. Thermodynamic rigidity of polysaccharide chains molecules and orientational order in the surface layers of their films. Vysokomolekul. Soedin. 2005, 47B, N10, 1882-1886.
  10. Pavlov G.M. Size and average density spectrums of macromolecules obtained from hydrodynamic data. Eur. Phys. J. E 2007, 22, 171-180.
  11. Pavlov G.M., Okatova O.V., Gubarev A.S., Gavrilova I.I., Panarin E.F. Strong Linear Polyelectrolytes in Solutions of Extreme Concentrations of One–One Valent Salt. Hydrodynamic Study. Macromolecules, 2014, 47 (8), pp 2748–2758

The works published in the last 5 years:

  • Happ B., Pavlov G.M., Altuntas E., Friebe C., Hager M.D., Winter A., Görls H., Günther W., Schubert U.S. Self-Assembly of 3,6-Bis(4-triazolyl)pyridazines ligands with Cu(I) and Ag(I) ions: Time-dependant 2D-NOESY and ultracentrifuge measurements. Chemistry - An Asian J 2011, 6, 873-880
  • Schlütter F., Pavlov G.M., Gohy J.-F., Wild A., Winter A., Hager M.D., Hoeppener S., Schubert U.S. Synthesis, Characterization and Micellization Studies of Coil-Rod-Coil Ruthenium(II) Terpyridine Assemblies with π-Conjugated Electron Acceptor Systems. Journal of Polymer Science Part A: Polymer Chemistry 2011, 49, 1396-1408
  • Pavlov G.M., Perevyazko I., Okatova O.V., Schubert U.S. Conformation parameters of linear macromolecules by velocity sedimentation and other hydrodynamic methods. Methods 2011, 54, 124-135
  • Shaplov A.S., Lozinskaya E.I., Ponkratov D.O., Malyshkina I.A., Vidal F., Aubert P.-H., Okatova O.V., Pavlov G.M., Wandrey C., Vygodskii Y.S. Bis(trifluoromethylsulfonyl)imide based polymeric ionic liquids: synthesis, purification and peculiarities of structure-properties relationships. Electrochimica Acta 2011, 57, 74-90
  • Perevyazko I.Y., Delaney J.T., Jr., Vollrath A., Schubert S., Pavlov G.M., Schubert U.S. High-throughput nanoprecipitation: New approach for developing and understanding self-assembling nanoparticles. Soft Matter 2011, 7, 5030-5035
  • Pavlov G.M., Gubarev A.S., Gavrilova I.I., Panarin E.F. Conformation of the macromolecules of polystyrene-4-Na sulfonate in solution of different ionic strengths. Polymer Science 2011, 53A, 1859-1868
  • Shaplov A.S., Vlasov P. S., Armand M., Lozinskaya E.I., Ponkratov D.O., Malyshkina I.A., Vidal F., Okatova O.V., Pavlov G.M., Wandrey C. Godovikov I. A., Vygodskii Y.S. Design and synthesis of new anionic ‘‘polymeric ionic liquids’’ with high charge delocalization. Polym. Chem., 2011, 2, 2609-2618 (The Royal Society of Chemistry)
  • Shaplov A.S., Vlasov P. S., Lozinskaya E.I., Ponkratov D.O., Malyshkina I.A., Vidal F., Okatova O.V., Pavlov G.M., Wandrey C., Bhide A., Schoenhoff M., Vygodskii Y.S. Polymeric ionic liquids: Comparison of Polycations and Polyanions. Macromolecules 2011, 44, 9792-9803
  • Pavlov G.M., Breul A.M., Hager M.D., Schubert U.S. Hydrodynamic and molecular study of poly(4-((4-(hexyloxy)phenyl)ethynyl)phenyl methacrylate) in dilute solutions and conformational peculiarities of brush-like macromolecules Macromolecular Chemistry and Physics 2012, 213, 904-916
  • Happ B., Pavlov G.M., Perevyazko I., Hager M.D., Winter A.,Schubert U.S. Induced charge effect by CoII-complexation on the conformation of a copolymer containing a bidentate 2-(1,2,3-triazol-4-yl) pyridine chelating unit. Macromolecular Chemistry and Physics 2012, 213, 1339-1348
  • Okatova O.V., Gavrilova I.I., Ulianova N.N., Panarin E.F. Pavlov G.M. Hydrodynamic, molecular and conformational characteristics of the statistical copolymer of poly-N-methyl-N-vinylacetamid and hydrochloride of N-methyl-N-vinylamine. J. Appl. Chem. 2012. Т. 85. № 8. С. 1303-1310
  • Breul A., Schäfer J., Pavlov G. M., Teichler A., Höppener S., Weber C., Nowotny J., Blankenburg L., Popp J., Hager M. D., Dietzek B., Schubert U. S. Synthesis and Characterization of Polymethacrylates Containing Conjugated Oligo(phenylene ethynylene)s as Side Chains J. Polym. Sci. Polym. Chem. 2012 V. 50, N 15, P. 3192–3205.
  • Schulze B., Friebe C., Hoeppener S., Pavlov G. M., Winter A., Hager M.D., Schubert U.S. Ruthenium(II) metallo-supramolecular polymers of click-derived tridentate ditopic ligands. Macromolecular Rapid Communications 2012, 33, 597−602
  • Vollrath A., Pretzel D., Pietsch C., Perevyazko I. Y., Menzel R., Weiss D., Schubert S., Pavlov G. M., Beckert R., Schubert U. S. Preparation, cellular internalization, and biocompatibility of highly fluorescent PMMA nanoparticles. Macromol. Rapid. Commun 2012, 33, 1791-1797.
  • Perevyazko I. Y., Bauer M., Pavlov G. M., Hoeppener S., Schubert S., Fischer D., Schubert U. S. Polyelectrolyte complexes of DNA and linear PEI: formation, composition and properties. Langmuir 2012, 28, 16167-16176. doi.org/10.1021/la303094b
  • Perevyazko I.Y., Vollrath A., Pietsch C., Schubert S., Pavlov G.M., Schubert U.S. Nanoprecipitation of Poly(methyl methacrylate)-Based Nanoparticles: Effect of the Molar Mass and Polymer Behavior. J. Polym. Sci. Polym. Chem. 2012 V. 50, 2906-2913
  • Pavlov G.M., Okatova O.V., Gavrilova I.I., Ulianova N.N., Panarin E.F. Peculiarity of the behavior of charged hydrophilic and hydrophobic macromolecules in the solution of different ionic strength. DAN RAN (Doklady Chemistry) 2013, 448, N2, 170-173
  • Knop K., Pavlov G. M., Rudolph T., Martin K., Pretzel D., Jahn B. O., Scharf D. H., Brakhage A., Schacher F. H., Schubert U. S. Amphiphilic star-shaped block copolymers as unimolecular drug delivery systems: investigations using a novel fungicide. Soft Matter 2013, 9, 715-726.
  • Lavrenko V.P., Gubarev A.S., Lavrenko P.N., Okatova O.V., Pavlov G.M., Panarin E.F. Automatic processing of digital interference images obtained with Tsvetkov’s diffusiometer. Industrial Laboratory (Diagnostics of Materials) Лавренко В.П., Губарев А.С., Лавренко П.Н., Окатова О.В., Павлов Г.М., Панарин Е.Ф. Автоматическая обработка цифровых интерференционных изображений, получаемых на диффузометре Цветкова. Заводская лаборатория 2013, 79, 33-36
  • Pavlov G.M., Okatova O.V., Gavrilova I.I., Ulianova N.N., Panarin E.F. Size and conformation of the hydrophilic and hydrophobic polyelectrolytes macromolecules in the solution of different ionic strength. Polymer Science 2013, VMS 2013, Vol. 55A, No. 12, pp. 1395–1401. (Polymer Science Series 2013, Volume 55A, Issue 12, pp 699-705.)
  • Pavlov G.M., Knop K., Okatova O.V., Schubert U.S. Star-brush-shaped macromolecules: peculiarities of their dilute solution properties. Macromolecules, 2013, 46 (21), pp 8671–8679
  • Павлов Г. М., Окатова О. В., Ульянова Н. Н., Гаврилова И. И., Панарин Е. Ф. Размеры линейных полиэлектролитов с различной плотностью заряда в бессолевых водных растворах DAN RAN (Doklady Chemistry) 2014, Vol. 454, No. 3, pp. 293–297. (Pavlov G. M., Okatova O. V., Ul’yanova N. N., Gavrilova I. I., Panarin E. F. Size of Linear Polyelectrolytes with Different Charge Density in Salt_Free Aqueous Solutions. Doklady Chemistry, 2014, 454,13–16).
  • Павлов Г.М., Михайлова Н.А., Соловская Н.А., Носова Г.И., Якиманский А.В. Двойное лучепреломление в пленках трифениламинсодержащего полигетероарилена. Оптический журнал. (Pavlov G.M., Michailova NA, Solovskaya NA, Nosova GI, Yakimanskyi AV Birefringence in films of threephenylcontaineng polyheteroarilen. J. Optical Technology 2014, 82, 67-72)
  • Pavlov G.M., Okatova O.V.,. Gubarev A.S, Gavrilova I.I., Panarin E.F. Strong Linear Polyelectrolytes in Solutions of Extreme Concentrations of One–One Valent Salt. Hydrodynamic Study. Macromolecules, 2014, 47 (8), pp 2748–2758
  • Pavlov G.M., Okatova O.V., Gubarev A.S, K. Knop, U.S. Schubert Амфифильные звездообразные щетки на основе блок-сополимеров - молекулярные мицеллы для доставки лекарственных средств. Гидродинамические исследования. (Г.М. Павлов, О.В. Окатова, А.С. Губарев, K. Knop, U.S. Schubert. VMS 2015, Т.57А,N2, рр.112-119)
  • G.M. Pavlov, G.F. Kolbina, N.A. Mikhailova, I.I. Gavrilova, and E.F. Panarin, "Birefringence in solutions and films of poly(N-methyl-N-vinylacetamide) macromolecules," Polym. Sci. A, vol. 57, pp. 261-265, 2015.
  • G.M. Pavlov, G.F. Kolbina, O.V. Okatova, I.I. Gavrilova, and E.F. Panarin, "Unimolecular micelles based on amphiphilic of N-methyl-N-vinylacetamide copolymers," Dokl. Chem., vol. 463, pp. 181-184, 2015.
  • I. Perevyazko, J. Seiwert, M. Schömer, H. Frey, U.S. Schubert, and G.M. Pavlov, "Hyperbranched Poly(ethylene glycol) Copolymers: Absolute Values of the Molar Mass, Properties in Dilute Solution, and Hydrodynamic Homology," Macromolecules, vol. 48, pp. 5887-5898, Aug. 2015.
  • G.M. Pavlov, O.A. Dommes, I.V. Aver'Yanov, G.F. Kolbina, O.V. Okatova, V.A. Korzhikov, A.V. Dobrodumov, and T.B. Tennikova, "Conformational differences of poly(L-lactic acid) and poly(D,L-lactic acid) in dilute solutions," Dokl. Chem., vol. 465, pp. 261-264, 2015
  • O.V. Okatova, A.L. Didenko, V.M. Svetlichnyi, and G.M. Pavlov, "Hydrodynamic, molecular, and conformational characteristics of poly[1,3-bis(3′,4-dicarboxyphenoxy)benzene 4,4′-bis(4″-N-phenoxy)-diphenylsulfone]imide in solutions," Polym. Sci. A, vol. 58, pp. 12-17, 2016.
[/restab] [restab title="Teaching" ]

Scientific supervision:

PhD thesis:

  1. "The conformation of water-soluble aromatic macromolecules in solutions of varying ionic strength and orientation order in the films prepared on the basis of their" Gubarev Alexander (2010)
  2. "Determination of the molecular characteristics of semi-rigid polymers speed ultracentrifugation methods without additional» Tarabukina Elena (1992)
At present research is carried out:
  • Olga Dommes
[/restab] [restab title="Academic activity" ]

A dissertation councils membership:

  • D 002.229.01 of the Federal State Budget Institution of Science Institute of Macromolecular Compounds, Russian Academy of Sciences
[/restab] [restab title="Author IDs"] [su_table]
ResearcherID: K-8194-2013
ScopusID: 7101978332
ORCID: 0000-0001-8897-769X
SPIN-код: 2832-9777
[/su_table] [/restab][/restabs] [/su_column][/su_row]