Найбільш цитовані статті співробітників ІХВС
Mamunya, Y. P., Davydenko, V. V., Pissis, P., & Lebedev, E. V. (2002). Electrical and thermal conductivity of polymers filled with metal powders. European polymer journal, 38(9), 1887-1897. Scopus GS
Lisunova, M. O., Mamunya, Y. P., Lebovka, N. I., & Melezhyk, A. V. (2007). Percolation behaviour of ultrahigh molecular weight polyethylene/multi-walled carbon nanotubes composites. European Polymer Journal, 43(3), 949-958. Scopus GS
Lipatov, Y.S. Polymer blends and interpenetrating polymer networks at the interface with solids Progress in Polymer Science (Oxford), 2002, 27(9), стр. 1721–1801 Scopus GS
Mamunya, Y., Boudenne, A., Lebovka, N., Ibos, L., Candau, Y., & Lisunova, M. (2008). Electrical and thermophysical behaviour of PVC-MWCNT nanocomposites. Composites Science and Technology, 68(9), 1981-1988. Scopus GS
Sergeyeva, T. A., Piletsky, S. A., Brovko, A. A., Slinchenko, E. A., Sergeeva, L. M., & El'Skaya, A. V. (1999). Selective recognition of atrazine by molecularly imprinted polymer membranes. Development of conductometric sensor for herbicides detection. Analytica Chimica Acta, 392(2-3), 105-111. Scopus GS
Mel’nichenko, Y. B., Schüller, J., Richert, R., Ewen, B., & Loong, C. K. (1995). Dynamics of hydrogen‐bonded liquids confined to mesopores: a dielectric and neutron spectroscopy study. The Journal of chemical physics, 103(6), 2016-2024. Scopus GS
Lipatov, Y.S., Nesterov, A.E., Ignatova, T.D., Nesterov, D.A. Effect of polymer-filler surface interactions on the phase separation in polymer blends Polymer, 2001, 43(3), стр. 875–880 Scopus GS
Mamunya, E. P., Davidenko, V. V., & Lebedev, E. V. (1996). Effect of polymer-filler interface interactions on percolation conductivity of thermoplastics filled with carbon black. Composite Interfaces, 4(4), 169-176. Scopus GS
Sergeyeva T.A. Piletsky S.A. Brovko A.A. Slinchenko E.A. Sergeeva L.M. Panasyuk T.L. El'skaya A.V. (1999). Conductimetric sensor for atrazine detection based on molecularly imprinted polymer membranes. Analyst, 124(3), 331-334. Scopus GS
Nesterov, A.E., Lipatov, Y.S. Compatibilizing effect of a filler in binary polymer mixtures Polymer, 1999, 40(5), стр. 1347–1349 Scopus GS
Grigoryeva, O. P., Fainleib, A. M., Tolstov, A. L., Starostenko, O. M., Lievana, E., & Karger‐Kocsis, J. (2005). Thermoplastic elastomers based on recycled high‐density polyethylene, ethylene–propylene–diene monomer rubber, and ground tire rubber. Journal of Applied Polymer Science, 95(3), 659-671. Scopus GS
Sergeyeva, T. A., Slinchenko, O. A., Gorbach, L. A., Matyushov, V. F., Brovko, O. O., Piletsky, S. A., ... & Elska, G. V. (2010). Catalytic molecularly imprinted polymer membranes: development of the biomimetic sensor for phenols detection. Analytica chimica acta, 659(1-2), 274-279. Scopus GS
Lipatov, Y.S., Alekseeva, T.T. Phase-separated interpenetrating polymer networks Advances in Polymer Science, 2007, 208(1), стр. 1–227 Scopus GS
Grigoryeva, O. P., & Karger-Kocsis, J. (2000). Melt grafting of maleic anhydride onto an ethylene–propylene–diene terpolymer (EPDM). European Polymer Journal, 36(7), 1419-1429. Scopus GS
Xu, W., Ledin, P. A., Shevchenko, V. V., & Tsukruk, V. V. (2015). Architecture, assembly, and emerging applications of branched functional polyelectrolytes and poly (ionic liquid) s. ACS applied materials & interfaces, 7(23), 12570-12596. Scopus GS
Mamunya, Y. P., Muzychenko, Y. V., Pissis, P., Lebedev, E. V., & Shut, M. I. (2002). Percolation phenomena in polymers containing dispersed iron. Polymer Engineering & Science, 42(1), 90-100. Scopus GS
Walter, R., Friedrich, K., Privalko, V., & Savadori, A. (1997). On modulus and fracture toughness of rigid particulate filled high density polyethylene. The Journal of Adhesion, 64(1-4), 87-109. Scopus GS
Mamunya, E. P., Davidenko, V. V., & Lebedev, E. V. (1995). Percolation conductivity of polymer composites filled with dispersed conductive filler. Polymer composites, 16(4), 319-324. Scopus GS
Mamunya, Y. P., Zois, H., Apekis, L., & Lebedev, E. V. (2004). Influence of pressure on the electrical conductivity of metal powders used as fillers in polymer composites. Powder Technology, 140(1-2), 49-55. Scopus GS
Kramarenko, V. Y., Ezquerra, T. A., Šics, I., Baltá-Calleja, F. J., & Privalko, V. P. (2000). Influence of cross-linking on the segmental dynamics in model polymer networks. The Journal of Chemical Physics, 113(1), 447-452. Scopus GS
Zhai, X., Peleshanko, S., Klimenko, N. S., Genson, K. L., Vaknin, D., Vortman, M. Y., ... & Tsukruk, V. V. (2003). Amphiphilic dendritic molecules: hyperbranched polyesters with alkyl-terminated branches. Macromolecules, 36(9), 3101-3110. Scopus GS
Mamunya, Y. P. (1999). Morphology and percolation conductivity of polymer blends containing carbon black. Journal of Macromolecular Science—Physics, 38(5-6), 615-622. Scopus GS
Sergeyeva, T. A., Brovko, O. O., Piletska, E. V., Piletsky, S. A., Goncharova, L. A., Karabanova, L. V., ... & El'Skaya, A. V. (2007). Porous molecularly imprinted polymer membranes and polymeric particles. Analytica Chimica Acta, 582(2), 311-319. Scopus GS
Zois, H., Apekis, L., & Mamunya, Y. P. (2003). Dielectric properties and morphology of polymer composites filled with dispersed iron. Journal of Applied Polymer Science, 88(13), 3013-3020. Scopus GS
Sergeyeva, T. A., Piletsky, S. A., Piletska, E. V., Brovko, O. O., Karabanova, L. V., Sergeeva, L. M., ... & Turner, A. P. (2003). In situ formation of porous molecularly imprinted polymer membranes. Macromolecules, 36(19), 7352-7357. Scopus GS
Lipatov, Yuri S. RELAXATION AND VISCOELASTIC PROPERTIES OF HETEROGENEOUS POLYMERIC COMPOSITIONS. Advances in Polymer Science, 1977, (22), стр. 1–59 Scopus GS
Privalko, V.P., Demchenko, S.S., Lipatov, Y.S. Structure-Dependent Enthalpy Relaxation at the Glass Transition of Polystyrenes Macromolecules, 1986, 19(3), стр. 901–904 Scopus GS
Privalko, V. P. (1980). Excess entropies and related quantities in glass-forming liquids. The Journal of Physical Chemistry, 84(24), 3307-3312. Scopus GS
Lipatov, Yu.S. Peculiarities of self-organization in the production of interpenetrating polymer networks Journal of Macromolecular Science - Reviews in Macromolecular Chemistry and Physics, 1990, C30(2), стр. 209–232 Scopus GS
Zimnitsky, D., Shevchenko, V. V., & Tsukruk, V. V. (2008). Perforated, freely suspended layer-by-layer nanoscale membranes. Langmuir, 24(12), 5996-6006. Scopus GS
Privalko, V.P., Lipatov, Y.S. Glass Transition and Chain Flexibility of Linear Polymers Journal of Macromolecular Science, Part B, 1974, 9(3), стр. 551–564 Scopus GS
Savelyev, Y. V., Akhranovich, E. R., Grekov, A. P., Privalko, E. G., Korskanov, V. V., Shtompel, V. I., ... & Kanapitsas, A. (1998). Influence of chain extenders and chain end groups on properties of segmented polyurethanes. I. Phase morphology. Polymer, 39(15), 3425-3429. Scopus GS
Pissis, P., Kanapitsas, A., Savelyev, Y. V., Akhranovich, E. R., Privalko, E. G., & Privalko, V. P. (1998). Influence of chain extenders and chain end groups on properties of segmented polyurethanes. II. Dielectric study. Polymer, 39(15), 3431-3435. Scopus GS
Relaxation processes in the surface layers of polymers at the interface Lipatov, Yu.S., Fabulyak, F.Y. Journal of Applied Polymer Science, 1972, 16(8), стр. 2131–2139 Scopus GS
Filler effects on the compatibility and phase separation kinetics of poly(vinyl acetate)-poly(methyl methacrylate) mixtures Nesterov, A.E., Lipatov, Yu.S., Horichko, V.V., Gritsenko, O.T. Polymer, 1992, 33(3), стр. 619–622 Scopus GS
The Influence of Thickness of Polymeric Stationary Phase on Its Properties Determined by Gas Chromatography Lipatov, Y.S., Nesterov, A.E. Macromolecules, 1975, 8(6), стр. 889–894 Scopus GS
Kanapitsas, A., Pissis, P., Ribelles, J. G., Pradas, M. M., Privalko, E. G., & Privalko, V. P. (1999). Molecular mobility and hydration properties of segmented polyurethanes with varying structure of soft‐and hard‐chain segments. Journal of applied polymer science, 71(8), 1209-1221. Scopus GS
Effect of an interface with solid on the component distribution in separated phases of binary polymer mixtures Nesterov, A.E., Lipatov, Y.S., Ignatova, T.D. European Polymer Journal, 2001, 37(2), стр. 281–285 Scopus GS
Application of cluster model for the description of epoxy polymer structure and properties Kozlov, G.V., Beloshenko, V.A., Varyukhin, V.N., Lipatov, Y.S. Polymer, 1999, 40(4), стр. 1045–1051 Scopus GS
Viscoelastic properties of polystyrene–polycarbonate blends in melt Lipatov, Yu.S., Shumsky, V.F., Gorbatenko, A.N., Panov, Yu.N., Bolotnikova, L.S. Journal of Applied Polymer Science, 1981, 26(2), стр. 499–508 Scopus GS
Glass transition in filled polymer systems Lipatov, Yu.S., Privalko, V.P. Polymer Science U.S.S.R., 1972, 14(7), стр. 1843–1848 Scopus GS
Mamunya, Y. P., Levchenko, V. V., Rybak, A., Boiteux, G., Lebedev, E. V., Ulanski, J., & Seytre, G. (2010). Electrical and thermomechanical properties of segregated nanocomposites based on PVC and multiwalled carbon nanotubes. Journal of Non-Crystalline Solids, 356(11-17), 635-641. Scopus GS
Rheological, mechanical, and adhesive properties of thermoplastic-LCP blends filled by glass fibers Kulichikhin, V.G., Parsamyan, I.L., Lipatov, Yu.S., Babich, V.F., Postema, A.R. Polymer Engineering and Science, 1997, 37(8), стр. 1314–1321 Scopus GS
Mamunya, Y. P., Muzychenko, Y. V., Pissis, P., Lebedev, E. V., & Shut, M. I. (2001). Processing, structure, and electrical properties of metal-filled polymers. Journal of Macromolecular Science, Part B, 40(3-4), 591-602. Scopus GS
Temperature transitions and compatibility in gradient interpenetrating polymer networks Lipatov, Yu.S., Karabanova, L.V., Gorbach, L.A., Lutsyk, E.D., Sergeeva, L.M. Polymer International, 1992, 28(2), стр. 99–103 Scopus GS
Sidorenko, A., Zhai, X. W., Peleshanko, S., Greco, A., Shevchenko, V. V., & Tsukruk, V. V. (2001). Hyperbranched polyesters on solid surfaces. Langmuir, 17(19), 5924-5931. Scopus GS
Miscible polymer blends: 1. Thermodynamics of the blend melts poly(methyl methacrylate)-poly(ethylene oxide) and poly(methyl methacrylate)-poly(vinylidene fluoride) Privalko, V.P., Petrenko, K.D., Lipatov, Yu.S. Polymer, 1990, 31(7), стр. 1277–1282 Scopus GS
Formation kinetics and viscoelastic properties of semi-interpenetrating networks based on crosslinked polyurethane and poly(butyl methacrylate) Lipatov, Yu.S., Alekseeva, T.T., Rosovitsky, V.F., Babkina, N.V. Polymer, 1992, 33(3), стр. 610–618 Scopus GS
Hybrid binders in polymer composites. Peculiarities of structure and properties conditioned by microphase separation Lipatov, Y.S. Pure and Applied Chemistry, 1985, 57(11), стр. 1691–1700 Scopus GS
Fainleib, A. M., Hourston, D. J., Grigoryeva, O. P., Shantalii, T. A., & Sergeeva, L. M. (2001). Structure development in aromatic polycyanurate networks modified with hydroxyl-terminated polyethers. Polymer, 42(20), 8361-8372.
Savelyev, Y., Gonchar, A., Movchan, B., Gornostay, A., Vozianov, S., Rudenko, A., ... & Travinskaya, T. (2017). Antibacterial polyurethane materials with silver and copper nanoparticles. Materials Today: Proceedings, 4(1), 87-94.
Fainleib, A., Pires, R. V., Lucas, E. F., & Soares, B. G. (2013). Degradation of non-vulcanized natural rubber-renewable resource for fine chemicals used in polymer synthesis. Polímeros, 23, 441-450.
Bartolotta, A., Di Marco, G., Carini, G., D'Angelo, G., Tripodo, G., Fainleib, A., & Privalko, V. P. (1998). Relaxation in semi-interpenetrating polymers network of linear polyurethane and heterocyclic polymer networks. Journal of non-crystalline solids, 235, 600-604.
Travinskaya, T. V., & Savelyev, Y. V. (2006). Aqueous polyurethane–alginate compositions: Peculiarities of behavior and performance. European polymer journal, 42(2), 388-394.
Demchenko, V., Riabov, S., Rybalchenko, N., Goncharenko, L., Kobylinskyi, S., & Shtompel, V. (2017). X-ray study of structural formation, thermomechanical and antimicrobial properties of copper-containing polymer nanocomposites obtained by the thermal reduction method. European Polymer Journal, 96, 326-336. Scopus GS
Demchenko, V., & Riabov, S. (2016). Nanocomposites based on interpolyelectrolyte complex and Cu/Cu2O core–shell nanoparticles: structure, thermomechanical and electric properties. European Polymer Journal, 75, 310-316. Scopus GS
Demchenko, V., Riabov, S., Sinelnikov, S., Radchenko, O., Kobylinskyi, S., & Rybalchenko, N. (2020). Novel approach to synthesis of silver nanoparticles in interpolyelectrolyte complexes based on pectin, chitosan, starch and their derivatives. Carbohydrate polymers, 242, 116431. Scopus GS
Privalko, V. P., Lipatov, Y. S., & Kercha, Y. Y. (1969). Calorimetric study of oligoethyleneglycoladipates and linear and crosslinked polyurethanes synthesized from them. Polymer Science USSR, 11(1), 266-277. Scopus GS
Privalko, V. P., Lipatov, Y. S., & Kercha, Y. Y. (1970). Calorimetric study of the phase boundary effect on oligo-ethylene glycol adipate (OEGA) properties. Polymer Science USSR, 12(6), 1520-1529. Scopus GS
Spirin, Y. L., Lipatov, Y. S., Magdinets, V. V., Sergeyeva, L. M., Kercha, Y. Y., Savchenko, T. T., & Vilenskaya, L. N. (1968). Polymers based on polyoxypropylene glycol, diisocyanate and ethylene glycol monomethacrylate. Polymer Science USSR, 10(9), 2463-2470. Scopus GS
Privalko, V. P., Lipatov, Y. S., Kercha, Y. Y., & Mozzhukhina, L. V. (1971). Calorimetric study of filled linear polyurethanes. Polymer Science USSR, 13(1), 119-127. Scopus GS
Fainleib, A., Kozak, N., Grigoryeva, O., Nizelskii, Y., Grytsenko, V., Pissis, P., & Boiteux, G. (2002). Structure–thermal property relationships for polycyanurate–polyurethane linked interpenetrating polymer networks. Polymer degradation and stability, 76(3), 393-399. Scopus GS
Shevchenko, V. V., Stryutsky, A. V., Klymenko, N. S., Gumenna, M. A., Fomenko, A. A., Bliznyuk, V. N., ... & Tsukruk, V. V. (2014). Protic and aprotic anionic oligomeric ionic liquids. Polymer, 55(16), 3349-3359. Scopus GS