Publications on the project |
059 Percolation of aligned dimers on a square lattice |
Authors: | V.A.Cherkasova, Y.Y. Tarasevich, N.I. Lebovka and N.V. Vygornitskii | |
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Edition: | The European Physical Journal B,74 | | | 2010,
205-209,English |
059 Cluster self-organization of nanotubes in a nematic phase: The percolation behavior and appearance of optical singularities |
Authors: | V. V. Ponevchinsky, A. I. Goncharuk, V. I. Vasil'ev, N. I. Lebovka M. S. Soskin | |
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Edition: | JETP Letters | | | 2010,
241-244 ,English |
059 Percolation model of process of formation of nanoporous structures by selective dissolution |
Authors: | V.Yu. Starchenko, V.V. Zozulya, V.A. Prokopenko, N.I. Lebovka | |
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Edition: | "Nanostructured materials" | | | 2010,
39-45,Russian |
059 Modeling of physical systems - recipes and computer program |
Authors: | L.N. Bulavin, N.V. Vygornitskii, N.I. Lebovka | |
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Edition: | | | | 2011,
,Russian |
059 Barrier properties of k-mer packings |
Authors: | N. Lebovka, S. Khrapatiy, Vygornitskyi, N. Pivovarova | |
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Edition: | Cite as: arXiv:1303.0494. (http://arxiv.org/abs/1303.0494) | | | 2013,
,English |
059 Measurement of internal stresses by the method of holographic interferometry |
Authors: | M.Yu. Barabash, I.V. Belousov, Yu.A. Kunytsky | |
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Edition: | Заводская лаборатория | | | 2012,
с.28-34,Russian |
059 Obtaining porous structures during selective dissolution of binary alloys |
Authors: | V.V. Zozulya, M.V. But, T.I. Motronyuk, V.A. Prokopenko | |
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Edition: | Вісник КПІ | | | 2014,
,Ukrainian |
The events in the framework of the project |
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059 2.4. Colloidal nanoscale systems Purpose:Theoretically and experimentally investigate the self-organization of dissipative structures under the influence of nanoscale effects and symmetry breaking them nanomechanics fragments of the initial state, the processes of structure formation, percolation and fractal self-organization in steric constrains anisotropic nanocluster materials. Expected results:Issue of new types of products: methods, theories Stage 1:To determine the role of cluster nonhomogeneity structure of materials in the nanocluster state, develop diffusiophoresis the binary model of self-organization of a composite material during its selective chemical dissolution, fractality. Stage 2:To investigate the processes of clustering and self-organization structure under the influence of chemical and physico-chemical factors. To determine the influence of the initial microstructure and the anisotropy of the material on the processes of selective chemical dissolution process taking into account the diffusion of the chemical solution at random and correlated percolation channels Stage 3:To investigate the processes of clustering and self-organization structure under the influence of physical factors, thermal and percolation behavior of 2d systems of anisotropic particles (spin dimers and k-mers) in the vicinity of and below the saturation point Stage 4:Establish influence the size effects of nanoparticles on nanocrystalline structural condition, structural state boundaries in nanocrystalline materials and spatially inhomogeneous dilution effect on structure, thermal and anisotropic percolation behaviour of particles, effects of spatial constraints shape anisotropy and blocking space on self-organization Stage 5:On the basis of theoretical and experimental results to create appropriate models and to develop proposals for the evolution of methodical bases of a control of the building structure and of the properties of the nanosystems for formation of a new and innovative materials for modern technology, as well as new technologies and technological solutions
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