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Hydrophilic Nanocomposites Based on Polyurethane/Poly(2-hydroxyethyl methacrylate) Semi-IPNs and Modified/Unmodified Nanosilica for Biomedical Applications Stamatopoulou C, Klonos P, Koutsoumpis S, Gun'ko V, Pissis P, Karabanova L Journal of Polymer Science Part B: Polymer Physics, 52(5), 397, 2014 |
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Peculiar dynamics and elastic properties of hybrid semi-interpenetrating polymer network-3-D diamond nanocomposites Bershtein V, Karabanova L, Sukhanova T, Yakushev P, Eigorova L, Lutsyk E, Svyatyna A, Vylegzhanina M Polymer, 49(4), 836, 2008 |
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Filler effect on formation and properties of reinforced interpenetrating polymer networks Karabanova L, Sergeeva L, Boiteux G Composite Interfaces, 8(3-4), 207, 2001 |
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Electrical and dielectric behavior in blends of polyurethane-based ionomers Tsonos C, Apekis L, Viras K, Stepanenko L, Karabanova L, Sergeeva L Solid State Ionics, 143(2), 229, 2001 |
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Heterogeneity of segmental dynamics around T-g and nanoscale compositional inhomogeneity in polyurethane/methacrylate interpenetrating networks as estimated by creep rate spectroscopy Bershtein VA, Yakushev PN, Karabanova L, Sergeeva L, Pissis P Journal of Polymer Science Part B: Polymer Physics, 37(5), 429, 1999 |
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Thermodynamic state, temperature transitions, and broadband dielectric relaxation behavior in gradient interpenetrating polymer networks Karabanova L, Pissis P, Kanapitsas A, Lutsyk E Journal of Applied Polymer Science, 68(1), 161, 1998 |