Пошуковий запит: (<.>U=Г713$<.>) |
Загальна кількість знайдених документів : 157
Представлено документи з 1 до 20
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Frink L. J.D. A combined molecular simulation-molecular theory method applied to a polyatomic molecule in a dense solvent // Condensed Matter Physics. - 2005. - 8, № 2.
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Nishio T. A model study of cooperative binding of ionic surfactants to oppositely charged flexible polyions // Condensed Matter Physics. - 2014. - 17, № 4.
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Mansoori G. A. A perturbation correction of the Flory-Huggins polymer solution theory // Condensed Matter Physics. - 2005. - 8, № 2.
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Nezbeda I. Application of molecular simulations: Insight into liquid bridging and jetting phenomena // Condensed Matter Physics. - 2015. - 18, № 1.
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Ridouane H. Casimir force in critical ternary polymer solutions // Condensed Matter Physics. - 2004. - 7, № 1.
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Sokolowski S. Description of interfaces of fluid-tethered chains: advances in density functional theories and off-lattice computer simulations // Condensed Matter Physics. - 2014. - 17, № 1.
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Yaroshchuk O. V. Effect of bulk orientational ordering on nematic - LC polymer interface. — 2001 // Укр. фіз. журн.
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Milovanova O. I. Effect of concentration and nature of lithium salt on characteristics of gel electrolytes DMSO-PVDF-LiAn // Укр. хім. журн. - 2020. - 86, № 1/2.
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Han X. -G. Effect of distribution of stickers along backbone on temperature-dependent structural properties in associative polymer solutions // Condensed Matter Physics. - 2012. - 15, № 3.
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Han X.-G. Effect of polymer concentration and length of hydrophobic end block on the unimer-micelle transition broadness in amphiphilic ABA symmetric triblock copolymer solutions // Condensed Matter Physics. - 2013. - 16, № 3.
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Khorolskyi O. V. Effective radii of macromolecules in dilute polyvinyl alcohol solutions // Укр. фіз. журн.. - 2018. - 63, № 2.
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Han X. -G. Effects of polymer concentration and chain length on aggregation in physically associating polymer solutions // Condensed Matter Physics. - 2011. - 14, № 4.
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Shmotolokha V. I. Effects of porous media on the phase behaviour of polypeptide solutions // Condensed Matter Physics. - 2022. - 25, № 3.
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Rescic J. Electrostatically assisted macroion association // Condensed Matter Physics. - 2021. - 24, № 3.
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Ivanauskas R. Formation of the copper selenide films on polyamide (PA) by the use of selenopolythionates. — 1999 // Укр. хим. журн.
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Ilnytskyi J. M. How does the scaling for the polymer chain in the dissipative particle dynamics hold? // Condensed Matter Physics. - 2007. - 10, № 4.
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Куцевол Н. В. In situ синтез наночастинок срібла в поліелектролітних полімерних матрицях різної будови з використанням водню як відновлюючого агента // Полімер. журн.. - 2014. - 36, № 4.
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Rudko G. Yu. Nucleation and growth kinetics of colloidal nanoparticles CdS:Mn in aqueous solution of polyvinyl alcohol // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2014. - 17, № 3.
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Mansfield M. L. Numerical path-integration calculation of transport properties of star polymers and theta-DLA aggregates // Condensed Matter Physics. - 2002. - 5, № 2.
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Brodin A. On the structure of archetypal polymer electrolyte PEO:LiCF3SO3. — 2009 // Укр. фіз. журн.
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