University of Lincoln, UK

Journals 1989-2009


  • Pinna M., Guo X., Zvelindovsky A. V., “Diblock copolymers in a cylindrical pore”, J. Chem. Phys. 131 214902
  • Ly D. Q., Honda T., Kawakatsu T., Zvelindovsky A. V., “Electric field-induced transitions in perforated lamella of ABA triblock copolymer thin film”, Soft Matter 5 4814-4822
  • Sevink G. J. A., Zvelindovsky A. V. “Confined spheres-forming diblock copolymers: phase behaviour and the role of chain architecture”, Macromolecules 42 8500-8512
  • Pinna M., Schreier L., Zvelindovsky A. V. “Mechanisms of electric-field-induced alignment of block copolymer lamellae”, Soft Matter 5  970-973


  • Pinna M., Zvelindovsky A. V. “Kinetic pathways of gyroid-to-cylinder transitions in diblock copolymers under external fields: cell dynamics simulation”, Soft Matter 4  316-327
  • Sevink G. J. A., Zvelindovsky A. V. “Block copolymers confined in a nanopore: Pathfinding in a curving and frustrating flatland”, J. Chem. Phys.  128  084901
  • Ly D. Q., Honda T., Kawakatsu T, Zvelindovsky A. V. “Hexagonally perforated lamellae-to-cylinder transition in a diblock copolymer thin film under an electric field”, Macromolecules 41 4501-4505
  • Horvat A., Sevink G. J. A., Zvelindovsky A. V., Krekhov A., Tsarkova L. “Specific features of defect structure and dynamics in the cylinder phase of block copolymers”, ACS Nano 2  1143-1152
  • Pinna M., Guo X., Zvelindovsky A. V. “Block copolymer nanoshells”, Polymer 49  2797-2800


  • Horvat A., Knoll A., Kraush G., Tsarkova L., Lyakhova K. S., Sevink G. J. A., Zvelindovsky A. V., Magerle R. “Time evolution of surface relief structures in thin diblock copolymer films” Macromolecules 40  6930-6939
  • Guo X., Pinna M., Zvelindovsky A.V. “Parallel algorithm for Cell Dynamics Simulation of block copolymers” Macromol. Theory Simul. 16  779-784, Rapid Communication. & Cover
  • Ratushnaya V.I., Bedeaux D., Kulinskii V.L., Zvelindovsky A.V. “Collective behavior of self propelling particles with kinematic constraints; the relation between the discrete and the continuous description” Physica A 381 39-46
  • Ly D.Q., Honda T., Kawakatsu T., Zvelindovsky A.V. “Kinetic pathway of gyroid-to-cylinder transition in diblock copolymer melt under electric field” Macromolecules 40 2928-2935
  • Ratushnaya V.I., Bedeaux D., Kulinskii V.L., Zvelindovsky A.V. “Stability properties of the collective stationary motion of self-propelling particles with conservative kinematic constraints” J. of Physics A: Mathematical and Theoretical 40 2573-2581
  • Schmidt K., Schoberth H.G., Schubert F., Hänsel H., Fischer F., Weiss T. M., Sevink G. J. A., Zvelindovsky A.V., Böker A., Krausch G. “Scaling behavior of the reorientation kinetics of block copolymers exposed to electric fields” Soft Matter 3 448-453
  • Sevink G. J. A., Zvelindovsky A. V. “Mesoscopic dynamics of complex vesicle formation: kinetic versus thermodynamic factors” Molecular Simulation 33 405-415


  • Pinna M., Zvelindovsky A.V.,Todd S., Goldbeck-Wood G. “Cubic phases of block copolymers under shear and electric fields by cell dynamics simulation. I. Spherical phase”, J. Chem. Phys.125,154905:10pp
  • Tsarkova L., Horvat A., Krausch G., Zvelindovsky A. V., Sevink G. J. A., Magerle R. “Defect evolution in block copolymer thin films via temporal phase transitions” Langmuir 22 8089-8095
  • Lyakhova K. S., Horvat A., Zvelindovsky A. V., Sevink G. J. A. “Dynamics of terrace formation in a nanostructured thin block copolymer film” Langmuir 22 5848-5855
  • Lyakhova K. S., Zvelindovsky A. V., Sevink G. J. A. “Kinetic pathways of order-to-order phase transitions in block copolymer films under an electric field” Macromolecules 39 3024-3037
  • Ratushnaya V.I., Kulinskii V.L., Zvelindovsky A.V., Bedeaux D. “Hydrodynamic Model for the System of Self Propelling Particles with Conservative Kinematic Constraints; Two dimensional stationary solutions” Physica A 366 107-114


  • Xu T., Zvelindovsky A. V., Sevink G. J. A., Lyakhova K. S., Jinnai H., and Russell T. P. “Electric Field Alignment of Asymmetric Diblock Copolymer Thin Films” Macromolecules 38 10788-10798.
  • Schmidt K., Böker A., Zettl H., Schubert F., Hänsel H., Fischer F., Weiss T. M., Abetz V., Zvelindovsky A.V., Sevink G.J.A., Krausch G. ”The Influence of Initial Order on the Microscopic Mechanism of Electric Field Induced Alignment of Block Copolymer Microdomains” Langmuir 21 11974-11980.
  • Sevink G. J. A., Zvelindovsky A.V. ”Self-assembly of complex vesicles” Macromolecules 38 7502-7513.
  • Zvelindovsky A.V., Sevink G. J. A. ”Orthogonal fields: A path to long-range 3-D order in block copolymers” J. Chem. Phys. 123 074903 5 pp.
  • Kulinskii V.L., Ratushnaya V.I., Zvelindovsky A.V., Bedeaux D. ”Hydrodynamic model for a system of self propelling particles with conservative constrains” Europhys. Lett. 71 207-213.
  • Ludwigs S., Krausch G., Magerle R., Zvelindovsky A. V., Sevink G. J. A. ”Phase Behavior of ABC Triblock Terpolymers in Thin Films: Mesoscale Simulations” Macromolecules 38 1859-1867.
  • Fraaije J.G.E.M., van Sluis C.A., Kros A., Zvelindovsky A.V., Sevink G.J.A. ”Design of chimaeric polymersomes” Faraday Discuss.128 355-361.


  • Knoll A., Lyakhova K.S., Horvat A., Krausch G., Sevink G.J.A., Zvelindovsky A.V., Magerle R. ”Direct imaging and mesoscale modelling of phase transitions in a nanostructured fluid” Nature Materials 3 886-890.
  • Hamley I.W., Castelletto V., Mykhaylyk O.O., Yang Z., May R.P., Lyakhova K.S., Sevink G.J.A., Zvelindovsky A.V. ”Mechanism of the transition between lamellar and gyroid phases formed by a diblock copolymer in aqueous solution” Langmuir 20 10785-10790.
  • Hamm M., Goldbeck-Wood G., Zvelindovsky A.V., Fraaije J.G.E.M. “Nematic-amorphous polymer interfaces in the presence of a compatibilizer” J. Chem. Phys. 121 4430-4440.
  • Xu T., Zvelindovsky A.V., Sevink G.J.A., Gang O., Ocko B., Zhu Yu., Godo S.P., Russell T.P. “Electric field induced sphere to cylinder transition in diblock copolymer thin films” Macromolecules 37 6980-6984.
  • Sevink G.J.A., Zvelindovsky A.V. “Kinetic-pathways of sheared block copolymer systems derived from Minkowski functionals” J. Chem. Phys. 121 3864-3873.
  • Fraaije J.G.E.M., Zvelindovsky A.V., Sevink G.J.A. “Computational soft nanotechnology with Mesodyn” Molecular Simulation 30 225-238.
  • Zvelindovsky A.V., Sevink G.J.A., Lyakhova K.S., Altevogt P. “Dynamic density functional theory for sheared polymeric systems” Macromol. Theory Simul. 13 140-151.
  • Lyakhova K.S., Sevink G.J.A., Zvelindovsky A.V., Horvat A., Magerle R. “Role of dissimilar interfaces in thin films of cylinder-forming block copolymers” J. Chem. Phys. 120 1127-1136.
  • Horvat A., Lyakhova K.S., Sevink G.J.A., Zvelindovsky A.V., Magerle R. “Phase behavior in thin films of cylinder-forming ABA block copolymers: Mesoscale modeling” J. Chem. Phys. 120 1117-1126.


  • Böker A., Elbs H., Hänsel H., Knoll A., Ludwigs S., Zettl H., Zvelindovsky A.V., Sevink G.J.A., Urban V., Abetz V., Müller A.H.E., Krausch G. “Electric field induced alignment of concentrated block copolymer solutions” Macromolecules 36 8078-8087.
  • Kyrylyuk A.V., Sevink G.J.A., Zvelindovsky A.V., Fraaije J.G.E.M. “Simulations of electric field induced lamellar alignment in block copolymers in the presence of selective electrodes” Macromol. Theory Simul. 12 508-511.
  • Zvelindovsky A.V.M., Sevink G.J.A. “Sphere morphology of block copolymer systems under shear” Europhys. Lett. 62 370-376.
  • Hamm M., Goldbeck-Wood G., Zvelindovsky A.V., Fraaije J.G.E.M. “Microstructure of nematic amorphous block copolymers: Dependence on the nematic volume fraction” J. Chem. Phys. 118 9401-9419.
  • Lyakhova K.S., Zvelindovsky A.V., Sevink G.J.A., Fraaije J.G.E.M. “Inverse mapping of block copolymer morphologies” J. Chem. Phys. 118 8456-8459.
  • Zvelindovsky A.V., Sevink G.J.A. “Comment on “Microscopic Mechanisms of Electric-Field-Induced Alignment of Block Copolymer Microdomains” Phys. Rev. Lett. 90 049601


  • Knoll A., Horvat A., Lyakhova K.S., Krausch G., Sevink G.J.A., Zvelindovsky A.V., Magerle R. “Phase behavior in thin films of cylinder-forming block copolymers” Phys. Rev. Lett. 89 035501.
  • Kyrylyuk A.V., Zvelindovsky A.V., Sevink G.J.A., Fraaije J.G.E.M. “Lamellar alignment of diblock copolymers in an electric field” Macromolecules 35 1473-1476.
  • Hamm M., Goldbeck-Wood G., Zvelindovsky A.V., Sevink G.J.A., Fraaije J.G.E.M. “Structure formation in liquid crystalline polymers” J. Chem. Phys. 116 3152-3161.
  • Ren S.R., Hamley I.W., Sevink G.J.A., Zvelindovsky A.V., Fraaije J.G.E.M. “Mesoscopic simulations of lamellar orientation in block copolymers” Macromol. Theory Simul. 11 123-127.


  • Sevink G.J.A., Zvelindovsky A.V., Fraaije J.G.E.M., Huinink H.P. “Morphology of symmetric block copolymer in a cylindrical pore” J. Chem. Phys. 115 8226-8230.
  • Hamm M., Goldbeck-Wood G., Zvelindovsky A.V., Sevink G.J.A., Fraaije J.G.E.M. “Dynamic mean-field model for the mesoscale morphologies of liquid crystalline polymers” Macromolecules 34 8378-8379.
  • Morozov A.N., Zvelindovsky A.V., Fraaije J.G.E.M. “Influence of confinement on the orientational phase transitions in the lamellar phase of a block-copolymer melt under shear flow” Phys. Rev. E 64 051803 (9pp).
  • Zatovsky A.V., Zvelindovsky, A.V. “Hydrodynamic fluctuations of a liquid with anisotropic molecules” Physica A 298 237-254.
  •  Lisy V., Brutovsky B., Zatovsky A.V., Zvelindovsky A.V. “On the theory of light and neutron scattering from droplet microemulsions” J. Mol. Liq. 93 113-118.
  • Kirilyuk A.V., Zvelindovsky A.V. “Thermal fluctuations of a liquid helium inside a spherical volume” J. Mol. Liq. 93 91-94.


  • Morozov A.N., Zvelindovsky A.V., Fraaije J.G.E.M. “Orientational phase transitions in hexagonal phase of block copolymer melt under shear flow” Phys. Rev. E 61 4125-4132.
  • Fraaije J.G.E.M., Zvelindovsky A.V., Sevink G.J.A., Maurits N.M. “Modulated self-organization in complex amphiphilic systems” Molecular Simulation 25 131-144.
  • Sevink G.J.A., Zvelindovsky A.V., Fraaije J.G.E.M. “Modulated self-organization in complex amphiphilic systems” Progr. Theor. Phys. Suppl. 138 320-329.
  • Zvelindovsky A.V., Sevink G.J.A., Fraaije J.G.E.M. “Shear-induced transitions in a ternary polymeric system” Phys. Rev. E 62 R3063-R3066


  • Sevink G.J.A., Zvelindovsky A.V., van Vlimmeren B.A.C., Maurits N.M., Fraaije J.G.E.M. “Dynamics of surface directed mesophase formation in block copolymer melts” J. Chem. Phys. 110 2250-2256.
  • van Vlimmeren B.A.C., Maurits N.M., Zvelindovsky A.V., Sevink G.J.A., Fraaije J.G.E.M. “Simulation of 3D Mesoscale Structure Formation in Concentrated Aqueous Solution of the Triblock Polymer Surfactants (Ethylene Oxide)13(Propylenexide)30(EthyleneOxide)13 and (Propylene Oxide)19(Ethylene Oxide)33(Propylene Oxide)19. Application of Dynamic Mean-Field Density Functional Theory” Macromolecules 32 646-656.
  • Maurits N.M., Sevink G.J.A., Zvelindovsky A.V., Fraaije J.G.E.M. “Pathway Controlled Morphology Formation in Polymer Systems: Reactions, Shearing and Microphase Separation” Macromolecules 32 7674-7681.


  • Zvelindovsky A.V., Sevink G.J.A., van Vlimmeren B.A.C., Maurits N.M., Fraaije J.G.E.M. “3D mesoscale dynamics of block copolymers under shear: the dynamic density functional approach” Phys. Rev. E 57 R4879-R4882.
  • Zvelindovsky A.V., Sevink G.J.A., van Vlimmeren B.A.C., Maurits N.M., Fraaije J.G.E.M. “Lamellar phase of diblock copolymer melt under shear: kinetics and conformational analysis” Progress in Colloid and Polymer Science 110 251-254.
  • Zvelindovsky A.V.M., van Vlimmeren B.A.C., Sevink G.J.A., Maurits N.M., Fraaije J.G.E.M. “3D simulation of hexagonal phase of a specific polymer system under shear: The dynamic density functional approach” J. Chem. Phys. 109 8751-8754.
  • Maurits N.M., Zvelindovsky A.V., Fraaije J.G.E.M. “Viscoelastic effects in three-dimensional microphase separation of block copolymers: Dynamic mean-field density functional approach” J. Chem. Phys. 109 11032-11042.
  • Maurits N.M., Zvelindovsky A.V., Sevink G.J.A., van Vlimmeren B.A.C., Fraaije J.G.E.M. “Hydrodynamic effects in 3D microphase separation of block copolymers: dynamic mean-field density functional approach” J. Chem. Phys. 108 9150-9154.
  • Maurits N.M., Zvelindovsky A.V., Fraaije J.G.E.M. “Equation of State and Stress Tensor in Inhomogeneous Compressible Copolymer Melts: Dynamic Mean-Field Density Functional Approach” J. Chem. Phys. 108 2638-2650.


  • Zvelindovsky A.V., Zatovsky A.V. “Fluctuations of fluid inside a pore” Il Nuovo Cimento D 19 725-745.


  • Zatovsky A.V., Zvelindovsky A.V. “Mossbauer absorption by ions in the highly viscous liquids” Cond. Matter Phys. 8 175-180.


  • Zvelindovsky A.V., van der Linden E., Bedeaux D. “Dynamics of multi-lamellar vesicles” Physica A 218 319-334.
  • Zvelindovsky A.V., Bedeaux D. “Thermal hydrodynamic fluctuations of polymer globules” Physica A 222 87-104.


  • Zvelindovsky A.V., Zatovsky A.V. “Fluctuations of compressible droplets: the role of surface excitations” J. de Physique II 4 613-626.
  • Lisy V., Zatovsky A.V., Zvelindovsky A.V. “Thermal hydrodynamic fluctuations in microemulsions” Phys. Rev. E 50 3755-3765.
  • Zatovskii A.V., Zvelindovskii A.V. “Thermal excitations of micelles with transfer of the surfactant” Russian J. Phys. Chem. 68 925-930.
  • Zatovsky A.V., Zvelindovsky A.V. “Mössbauer absorption by globules in an acoustic field” J. Phys. D: Appl. Phys. 27 839-844.


  • Zatovskii A.V., Zvelindovskii A.V. “Spectral properties of the thermal fluctuation of small liquid drops” Opt. Spectrosc. 72 348-350.
  • Lisy V., Zatovsky A.V., Zvelindovsky A.V. “Hydrodynamic fluctuations of spherical micelles and vesicles” Physica A 183 262-278.
  • Zatovskii A.V., Zvelindovskii A.V., Lisy V. “Collective excitations of micelles and vesicles” Soviet Physics. Technical Physics 37 818-823.


  • Zvelindovsky A.V. “On the fluctuations of density of fluid within spherical cavity” Phys. Liq. State (Kiev, USSR) [in Russian] 19 3-7.


  • Zatovskii A.V., Zvelindovskii A.V. “Hydrodynamic fluctuations in a spherical volume” Soviet Physics. Technical Physics 35 1078-1079.
  • Zvelindovsky A.V. “Euler correlation functions of velocity of fluid within spherical region” Ukrainian Phys. J. 35 987, -VINITI Dep.N 547-B90, 13 pp [in Russian]


  • Zatovskii A.V., Zvelindovskii A.V. “Acoustic modulation of the spectrum of Mössbauer absorption by small particles” Soviet Physics. Solid State 31 386-388.

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