Papers published in scietific journals
Polyelectrolytes
- Artem M. Rumyantsev, Elena Yu. Kramarenko, Oleg V. Borisov
Microphase Separation in Complex Coacervate Due to Incompatibility between Polyanion and Polycation.
Macromolecules 2018, vol. 51 (17), pp. 6587–6601, link
- Yu.D. Gordievskaya, Yu.A. Budkov and E.Yu. Kramarenko
An interplay of electrostatic and excluded volume interactions in conformational behavior of a dipolar chain: Theory and Computer simulations.
Soft Matter 2018, vol. 14, pp. 3232-3235, link
- Yu.D. Gordievskaya, A.A. Gavrilov and E.Yu. Kramarenko
Effect of counterion excluded volume on conformational behavior of polyelectrolyte chains.
Soft Matter 2018, vol. 14, pp. 1474-1481, link
- S. Schimka, Yu.D. Gordievskaya, N. Lomadze, M. Lehmann, R. von Klitzing, A.M. Rumyantsev, E.Yu. Kramarenko, S. Santer.
Communication: Light driven remote control of microgels’ size in the presence of photosensitive surfactant: Complete phase diagram.
Journal of Chemical Physics, American Institute of Physics (United States) 2017, vol. 147, № 3, p. 031101, link
- A.M. Rumyantsev, E.Yu. Kramarenko
Two Regions of Microphase Separation in Ion-Containing Polymer Solutions.
Soft Matter 2017, vol. 13, pp. 6831 – 6844. link
- Selina Schimka, Nino Lomadze, Maren Rabe, Alexey Kopyshev, Maren Lehmann, Regine von Klitzing, Artem M. Rumyantsev, Elena Yu. Kramarenko and Svetlana Santer.
Photosensitive microgels containing azobenzene surfactants of different charges.
Physical Chemistry Chemical Physics 2017, vol. 19, pp. 108-117. link
- Gavrilov A.A., Chertovich A.V., Kramarenko E.Yu.
Conformational Behavior of a Single Polyelectrolyte Chain with Bulky Counterions
Macromolecules 2016, American Chemical Society, vol. 49, № 3, pp. 1103-1110. link
- Gavrilov A.A., Chertovich A.V., Kramarenko E.Yu.
Dissipative particle dynamics for systems with high density of charges: Implementation of electrostatic interactions
Journal of Chemical Physics 2016, American Institute of Physics, vol. 145, № 17, pp. 174101-1-174101-10. link
- Rumyantsev Artem M., Abhishek Pan, Saswati Ghosh Roy, Priyadarsi De, Kramarenko Elena Yu.
Polyelectrolyte Gel Swelling and Conductivity vs Counterion Type, Cross-Linking Density, and Solvent Polarity
Macromolecules 2016, American Chemical Society, vol. 49, № 17, pp. 6630-6643. link
- Gordievskaya Yu D., Rumyantsev A.M., Kramarenko E.Yu.
Polymer Gels with Associating Side Chains and Their Interaction with Surfactants
Journal of Chemical Physics 2016, American Institute of Physics, vol. 144, № 19, p. 184902. link
- Rumyantsev Artem, Kramarenko Elena, Santer Svetlana
Theory of Collapse and Overcharging of a Polyelectrolyte Microgel Induced by an Oppositely Charged Surfactant
Macromolecules 2014, American Chemical Society, vol. 47, № 15, pp. 5388-5399. link
- O.E. Philippova, A.M. Rumyantsev, E.Yu. Kramarenko, A.R. Khokhlov.
New Type of Swelling Behavior upon Gel Ionization: Theory vs Experiment.
Macromolecules 2013, 46, 9359. link
- A.M. Rumyantsev, E.Yu. Kramarenko.
Effect of ion pair formation on the structure of polymer micelles with ionic amphiphilic coronae.
J. Chem. Phys. 2013, 138, 204904. link
- E.A. Lysenko, A.I. Kulebyakina, P.S. Chelushkin, A.M. Rumyantsev, E.Yu. Kramarenko, A.B. Zezin.
Polymer Micelles with Hydrophobic Core and Ionic Amphiphilic Corona. 2. Starlike Distribution of Charged and Nonpolar Blocks in Corona.
Langmuir 2012, 28, 12663. link
- E.A. Lysenko, A.I. Kulebyakina, P.S. Chelushkin, A.M. Rumyantsev, E.Yu. Kramarenko, A.B. Zezin.
Polymer Micelles with Hydrophobic Core and Ionic Amphiphilic Corona. 1. Statistical Distribution of Charged and Nonpolar Blocks in Corona.
Langmuir 2012, 28, 17108. link
- O.S. Pevnaya, E.Yu. Kramarenko, A.R. Khokhlov.
AB block copolymer with moving B blocks as a model for interpolymer complex.
Macromolecular Theory and Simulations 2010, 19, 240. link
- I. Erel, Z. Zhu, S. Sukhishvili, E. Patyukova, I. Potemkin and E. Kramarenko.
Two Types of Block Copolymer Micelles with Ion-containing Cores.
Macromolecular Rapid Communications 2010, 31, 490. link
- A.S. Bodrova, E.Yu. Kramarenko, I.I. Potemkin.
Microphase Separation Induced by Complexation of Ionic-Non-Ionic Diblock Copolymers with Oppositely Charged Linear Chains.
Macromolecules 2010, 43, 2622. link
- M.A. Konovalov, E.Yu. Kramarenko, A.R. Khokhlov, P. Reineker.
Conformational behavior of diblock comb copolymers.
J. Chem. Phys. 2009, 130, 164903. link
- D. Tararyshkin, E. Kramarenko, A. Khokhlov.
Two-phase structure of polyelectrolyte gel/surfactant complexes.
J. Chem. Phys. 2007, 127, 164905. link
- D.V. Tararyshkin, E.Yu. Kramarenko, A.R. Khokhlov.
Interaction of two polyelectrolyte gels in solution of an oppositely charged surfactant.
Polym. Sci., Ser. A 2007, 49, 1129. link
- E.Yu. Kramarenko, A.R. Khokhlov.
Effect of formation of ion pairs on the stability of stoichiometric block ionomer complexes.
Polym. Sci., Ser. A 2007, 49, 1053. link
- E.Yu. Kramarenko, A.R. Khokhlov, P. Reineker.
Stoichiometric Polyelectrolyte Complexes of Ionic Block Copolymers and Oppositely Charged Polyions.
J. Chem. Phys. 2006, 125, 194902. link
- E.Yu. Kramarenko, O.E. Philippova, A.R. Khokhlov.
Polyelectrolyte Networks as Highly Sensitive Polymers.
Polym. Sci., Ser. C 2006, 48, 1. link
- E. Kramarenko, O.Pevnaya, A. Khokhlov.
Stoichiometric Polyelectrolyte Complexes as Comb Copolymers.
J. Chem. Phys. 2005, 122, 084902. link
- E.Yu. Kramarenko, I.Ya. Erukhimovich, A.R. Khokhlov.
Spinodal Stability of a Salt Polyelectrolyte Solution: Effect of Formation of Ions Pairs and Multiplets.
Polym. Sci., Ser. A 2004, 46, 1570. link
- E.Yu. Kramarenko, A.R. Khokhlov, P. Reineker.
Micelle Formation in a Dilute Solution of Block-Copolymers with a Polyelectrolyte Block Complexed with Oppositely Charged Linear Chains.
J. Chem. Phys. 2003, 119, 4945. link
- E.Yu.Kramarenko, I.Ya. Erukhimovich, A.R.Khokhlov.
The Influence of Ion Pair Formation on the Phase Behavior of Polyelectrolyte Solutions.
Macromolecular Theory and Simulations 2002, 11, 462. link
- E.Yu.Kramarenko, A.R.Khokhlov, K.Yoshikawa.
Three State Model for Counterions in the Dilute Solution of Weakly Charged Polyelectrolytes.
Macromolecular Theory and Simulations 2000, 9, 249. link
- V.Baulin, E.Yu.Kramarenko, A.R.Khokhlov.
Polymer-surfactant complexes: solubilization of polymeric globule by surfactants.
Computational and Theoretical Polymer Science 2000, 10, 165. link
- E.Yu. Kramarenko, A.R. Khokhlov.
Intranetwork Phase Separation for Polyelectrolyte Gels.
Polymer Gels and Networks 1998, 6, 45. link
- A.R. Khokhlov, E.Yu. Kramarenko, K. Yoshikawa.
Collapse of Polyelectrolyte Macromolecules Revisited.
Macromolecules 1997, 30, 3383. link
- A.R. Khokhlov, E.Yu. Kramarenko.
Weakly Charged Polyelectrolytes: Collapse Induced by Extra Ionization.
Macromolecules 1996, 29, 681. link
- A.R. Khokhlov, E.Yu. Kramarenko.
Polyelectrolyte/Ionomer Behavior in Polymer Gel Collapse.
Macromolecular Theory and Simulations 1994, 3, 45. link
- A.R. Khokhlov, E.Yu. Kramarenko, E.E. Makhaeva, S.G.Starodubtzev.
Collapse of Polyelectrolyte Networks Induced by Their Interaction with Oppositely Charged Surfactants. Theory.
Makromol. Chem., Theory Simul. 1992, 1, 105. link
Magnetoactive materials
- T.A. Nadzharyan, S.A. Kostrov, G.V. Stepanov, E.Yu. Kramarenko.
Fractional rheological models of dynamic mechanical behavior of magnetoactive elastomers in magnetic fields.
Polymer 2018, vol. 142, 316-329, link
- T.A. Nadzharyan, L.A. Makarova, E.G. Kazimirova, N.S. Perov, E.Yu. Kramarenko.
Influence of the geometry on magnetic interactions in a retina fixator based on a magnetoactive elastomer seal.
Journal of Physics: Conference Series 2018, vol. 994, 012002, link
- V.V. Sorokin, B.O. Sokolov, G.V. Stepanov, E. Yu. Kramarenko
Controllable Hydrophobicity of Magnetoactive Elastomer Coatings.
Journal of Magnetism and Magnetic Materials 2018, vol. 459, pp. 268-271, link
- I.A. Belyaeva, E.Yu. Kramarenko, M. Shamonin.
Magnetodielectric effect in magnetoactive elastomers: Transient response and hysteresis.
Polymer 2017, link
- L.A. Makarova, T.A. Nadzharyan, Yu.A. Alekhina, G.V. Stepanov, E.G. Kazimirova, N.S. Perov, E.Yu. Kramarenko.
Magnetoactive elastomer as an element of a magnetic retina fixator.
Smart Mater. Struct. 2017, vol. 26, 095054 (11pp) link
- V.V. Sorokin, I.A. Belyaeva, M. Shamonin, E.Yu. Kramarenko.
Magnetorheological response of highly filled magnetoactive elastomers from perspective of mechanical energy density: Fractal aggregates above the nanometer scale?
PHYSICAL REVIEW E 2017, 95, 062501-1-062501-10 link
- I.E. Kuznetsovaa, V.V. Kolesov, B.D. Zaitsev, A.S. Fionov, A.M. Shihabudinov, G.V. Stepanov, and E.Yu. Kramarenko.
Electrophysical and Acoustic Properties of Magnetic Elastomers Structured by an External Magnetic Field.
Bulletin of the Russian Academy of Sciences: Physics, 2017, vol. 81, No. 8, pp. 945–949
- Vladislav V. Sorokin, Gennady V. Stepanov, Mikhail Shamonin, Gareth J. Monkman and Elena Yu. Kramarenko.
Magnetorheological behavior of magnetoactive elastomers filled with bimodal iron and magnetite particles.
Smart Mater. Struct. 2017, vol. 26, 035019 (12pp)
- Nadzharyan T.A., Sorokin V.V., Stepanov G.V., Bogolyubov A.N., Kramarenko E.Yu.
A fractional calculus approach to modeling rheological behavior of soft magnetic elastomers
Polymer 2016, Elsevier BV, vol. 92, pp. 179-188. link
- Vasiliev V.G., Sheremetyeva N.A., Buzin M.I., Turenko D.V., Papkov V.S., Klepikov I.A., Razumovskaya I.V., Muzafarov A.M., Kramarenko E.Yu.
Magnetorheological fluids based on hyperbranched polycarbosilane matrix and iron microparticles
Smart Materials and Structures 2016, Institute of Physics Publishing, vol. 25, p. 055016-1-055016-9. link
- Belyaeva I.A., Kramarenko E.Yu., Stepanov G.V., Sorokin V.V., Stadler D., Shamonin M.
Transient Magnetorheological Response of Magnetoactive Elastomers to Step and Pyramid Excitations
Soft Matter 2016, Royal Society of Chemistry, vol. 12, pp. 2901-2913. link
- Тарасенков А.Н., Васильев В.Г., Бузин М.И., Гетманова Е.В., Пак Г.Г., Крамаренко Е.Ю., Музафаров А.М.
Исследование реологических свойств серосодержащих сверхразветвленных поликарбосиланов и магнитных композиций на их основе
Известия Академии наук. Серия химическая 2016, издательство Наука (М.), № 4, с. 1086-1096.
- Sorokin V.V., Stepanov G.V., Shamonin M., Monkman G.J., Khokhlov A.R., Kramarenko E.Yu.
Hysteresis of the viscoelastic properties and the normal force in magnetically and mechanically soft magnetoactive elastomers: Effects of filler composition, strain amplitude and magnetic field
Polymer 2015, Elsevier BV, vol. 76, pp. 191-202. link
- Kramarenko E.Yu., Chertovich A.V., Stepanov G.V., Semisalova A.S., Makarova L.A., Perov N.S., Khokhlov A.R.
Magnetic and viscoelastic response of elastomers with hard magnetic filler
Smart Materials and Structures 2015, Institute of Physics Publishing, vol 24, p. 035002-035002. link
- Sorokin Vladislav V., Eva Ecker, Stepanov Gennady V., Mikhail Shamonin, Monkman Gareth J., Kramarenko Elena Yu., Khokhlov Alexei R.
Experimental study of the magnetic field enhanced Payne effect in magnetorheological elastomers
Soft Matter 2014, Royal Society of Chemistry, vol. 10, pp. 8765-8776. link
- Stepanov G.V., Borin D.Yu., Kramarenko E.Yu., Bogdanov V.V., Semerenko D.A., Storozhenko P.A.
Magnetoactive Elastomer Based on Magnetically Hard Filler: Synthesis and Study of Viscoelastic and Damping Properties
Polymer Science – Series A 2014, Maik Nauka/Interperiodica Publishing, vol. 56, № 5, pp. 603-613
- Molchanov Vyacheslav S., Stepanov Gennady V., Vasiliev Viktor G., Kramarenko Elena Yu., Khokhlov Alexei R., Zhao-Dong Xu, Guo Ying-Qing
Viscoelastic Properties of Magnetorheological Elastomers for Damping Applications
Macromolecular Materials and Engineering 2014, John Wiley & Sons Ltd., vol. 299, № 9, pp. 1116-1125. link
- Меленев П.В., Ковров В.Н., Райхер Ю.Л., Русаков В.В., Степанов Г.В., Полыгалова Л.С., Крамаренко Е.Ю.
Структурно-механическая модель упруго-пластического поведения мягких магнитных эластомеров
ВЫЧИСЛИТЕЛЬНАЯ МЕХАНИКА СПЛОШНЫХ СРЕД 2014, том 7, № 4, с. 423-433. link
- G.V. Stepanov, E.Yu. Kramarenko, D.A. Semerenko.
Magnetodeformational effect of the magnetoactive elastomers and its possible applications
Journal of Physics: Conference Series 2013, 412, 012031. link
- A.S. Semisalova, N.S. Perov, G.V. Stepanov, E.Yu. Kramarenko, A.R. Khokhlov.
Strong magnetodielectric effects in magnetorheological elastomers
Sofr Matter 2013, 9, 11318. link
- G.V. Stepanov, A.V. Chertovich, E.Yu. Kramarenko.
Magnetorheological and Deformation Properties of Magnetically Controlled Elastomer with Hard Magnetic Filler.
J. Magn. Magn. Mater. 2012, 324, 3448. link
- O.V. Stolbov, Yu.L. Raikher, G.V. Stepanov, A.V. Chertovich, E.Yu. Kramarenko, A.R. Khokhlov.
Low Frequency Rheology of Magnetically Controlled Elastomers with Isotropic Structure.
Polym. Sci., Ser. B 2010, 52, 1344. link
- A.V. Chertovich, G.V. Stepanov, E.Yu. Kramarenko, A.R. Khokhlov.
New composite elastomers with giant magnetic response.
Macromol. Mater. Eng. 2010, 295, 336. link
- G.V. Stepanov, S.S. Abramchuk, E. Yu. Kramarenko, A.R. Khokhlov.
Magnetic elastomers: synthesis, properties and seal design on its basis.
Nanotechnologies in Russia 2008, 3, 29. link
- S. Abramchuk, E. Kramarenko, D. Grishin, G. Stepanov, L.V. Nikitin, G. Filipcsei, M. Zrinyi.
Novel Highly Elastic Magnetic Materials for Dampers and Seals II.: Material Behaviour in a Magnetic Field.
Polym. Adv. Technol. 2007, 18, 513. link
- S. Abramchuk, E. Kramarenko, G. Stepanov, L.V. Nikitin, G. Filipcsei, A.R. Khokhlov, M. Zrinyi.
Novel Highly Elastic Magnetic Materials for Dampers and Seals I.: Preparation and characterization of the elastic materials.
Polym. Adv. Technol. 2007, 18, 883. link
- G.V. Stepanov, S.S. Abramchuk, D.A. Grishin, L.V. Nikitin, E.Yu. Kramarenko, A.R. Khokhlov.
Effect of a Homogeneous Magnetic Field on the Viscoelastic Behavior of Magnetic Elastomers.
Polymer 2007, 48, 488. link
- A.M. Lotonov, N.D. Gavrilova, E.Yu. Kramarenko, E.I. Alexeeva, P.Y. Popov, G.V. Stepanov.
Effect of Iron Particles on Dielectric Properties of Polydimethylsiloxane near Crystallization and Glass Transition Temperatures.
Polym. Sci., Ser. B 2006, 48, 267. link
- S.S. Abramchuk, D.A. Grishin, E.Yu. Kramarenko, G.V. Stepanov, A.R. Khokhlov.
Effect of Homogeneous Magnetic Field on the Mechanical Behavior of Soft Magnetic Elastomers under Compression.
Polym. Sci., Ser. A 2006, 48, 138. link
Highly-branched polymers
- Andrey O. Kurbatov, Nikolay K. Balabaev, Mikhail A. Mazo, Elena Yu. Kramarenko
A Comparative Study of Intramolecular Mobility of Single Siloxane and Carbosilane Dendrimers via Molecular Dynamics Simulations.
Polymers 2018, vol. 10, p. 838, link
- V.G. Vasil’ev, E.Yu. Kramarenko, E.A. Tatarinova, S.A. Milenin, A.A. Kalinina, V.S. Papkov, A.M. Muzafarov
An unprecedented jump in the viscosity of high-generation carbosilane dendrimer melts.
Polymer 2018, vol. 146, pp. 1-5, link
- A.O. Kurbatov, N.K. Balabaev, M.A. Mazo, and E.Yu. Kramarenko
Molecular dynamics simulations of single siloxane dendrimers: Molecular structure and intramolecular mobility of terminal groups.
The Journal of Chemical Physics 2018, vol. 148, p. 014902, link
- Balabaev N.K., Mazo A.M., Kramarenko E.Yu.
Insight into the Structure of Polybutylcarbosilane Dendrimer Melts via Extensive Molecular Dynamics Simulations.
Macromolecules 2017, vol. 50, pp. 432-445. link
- Vasiliev V.G., Sheremetyeva N.A., Buzin M.I., Turenko D.V., Papkov V.S., Klepikov I.A., Razumovskaya I.V., Muzafarov A.M., Kramarenko E.Yu.
Magnetorheological fluids based on hyperbranched polycarbosilane matrix and iron microparticles
Smart Materials and Structures 2016, Institute of Physics Publishing, vol. 25, p. 055016-1-055016-9. link
- A.N. Tarasenkov, V.G. Vasil´ev, M.I. Buzin, E.V. Getmanova, G.G. Pak, E.Yu. Kramarenko, and A.M. Muzafarov.
Rheological properties of sulfurcontaining hyperbranched polycarbosilanes and related magnetic compositions.
Russian Chemical Bulletin, International Edition 2016, Vol. 65, No. 4, pp. 1086—1096
- N.A. Sheremetyeva, V.G. Vasiliev, V.S. Papkov, G.G. Pak, V.D. Myakushev, E.Yu. Kramarenko, and A.M. Muzafarov.
Rheological properties of nonfunctional derivatives of hyperbranched polycarbosilanes.
Russian Chemical Bulletin, International Edition 2015, Vol.64, No.9, pp. 2145—2151.
Patents
Magnetoactive materials
- Патент «Магнитореологический эластомер», #2603196, 20 июля 2016.
Авторы: Степанов Г.В., Борин Д.Ю., Крамаренко Е.Ю., Хохлов А.Р., Оденбах Штефан, Бахтияров А.В., Свиридова Л.В., Стороженко П.А.
- Russian Federation Patent «Magnetic elastomer», No 2522546, issued on 20.07.2014.
E.Yu. Kramarenko, A.R. Khokhlov, G.V. Stepanov, A.S. Semisalova, N.S. Perov, P.A. Storozhenko.
Rightholder: Lomonosov MSU and GNIIChTEOS. MPK: H01F1/00.
- Russian Federation Patent «Controlled damping device», No 2411404, issued on 10.02.2011, bulluten No 4.
E.Yu. Kramarenko, A.R. Khokhlov, G.V. Stepanov, A.V. Vikulenkov, D.A. Selkov, E.S. Uspenskyy, A.G. Podvolotskyy, A.V. Chertovich.
Rightholder: Lomonosov MSU and GNIIChTEOS. MPK: F16F9/53, F16F15/03.
- Russian Federation Patent «Active footing», No 2404381, issued on 20.11.2010, bulluten No 32.
V.P. Mikhaylov, D.Yu. Borin, G.V. Stepanov, E.Yu. Kramarenko, I.K. Zobov.
Registration number: 2009136160 issued on 30.09.2009. Rightholder: GNIIChTEOS. MPK: F16F9/53, F16F15/03.
- Russian Federation Patent «Controlled footing», No 2404380, issued on 20.11.2010, bulluten No 32.
V.P. Mikhaylov, D.Yu. Borin, G.V. Stepanov, E.Yu. Kramarenko, I.K. Zobov.
Registration number: 2009136158 issued on 30.09.2009. Rightholder: GNIIChTEOS. MPK: F16F9/53, F16F15/03.
- Certificate of state registration of computer program No 2010612639.
Application No 2010610892 issued on 17.02.2010. Registered in the Registry of the computer programs 16.04.2010.
O.V. Stolbov, U.L. Raicher, G.V. Stepanov, E.Yu. Kramarenko, A.R. Khokhlov.
Rightholder: Physics Department, Lomonosov MSU.