Пошуковий запит: (<.>A=Holovko M$<.>) |
Загальна кількість знайдених документів : 46
Представлено документи з 1 до 20
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Holovko M. F. A Multidensity Integral Equation Approach to the Theory of Complex Fluids: a New Application to Ionic Systems. — 2000 // Укр. фіз. журн.
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Patsahan T. Molecular dynamics study of aqueous uranyl in hydrophilic mesoporous confinement: The case of slit-like pore in amorphous silica. — Lviv: ICMP, 2006. — 12 p. - (Prepr. / The Nat. Acad. of Sciences of Ukraine. The Inst. for Condensed Matter Phys; ICMP-06-23E).
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Holovko M. F. Simple microscopic model of a ternary amphiphilic system - phase diagram and mesoscopic correlations. — Lviv, 2005. — 19 p.: fig. - (Prepr / Nat. acad. of sciences of Ukraine. Inst. of condensed matter physics; ICMP-05-04E).
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Holovko M. Simple microscopic model of a ternary amphiphilic system - phase diagram and mesoscopic correlations. — Л., 2005. — 21 с. - (Препр. / НАН України. Ін-т фізики конденс. систем; ICMP-05-04E).
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Kapko V. I. Associative electrolyte solution near the charge hard wall. Density, charge, polarization and potential profiles // Condensed Matter Physics. - 2001. - 4, № 2.
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Holovko M. F. Modelling of the elementary surface processes occurring in the cours of heterogeneous catalytic reactions // Condensed Matter Physics. - 2000. - 3, № 2.
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Holovko M. F. The multi-density integral equation approach in the theory of complex Liquids // Condensed Matter Physics. - 1999. - 2, № 2.
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Holovko M. F. The screening potentials of ion-dipole system adsorbed in ion-dipolar disordered matrices // Condensed Matter Physics. - 1999. - 2, № 2.
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Barthel J. The application of the associative mean spherical approximation in the theory of nonaqueous electrolyte solutions // Condensed Matter Physics. - 2000. - 3, № 3.
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Vakarin E. V. Clustering as a mechanism of enhanced adsorption // Condensed Matter Physics. - 2003. - 6, № 1.
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Patsahan T. Computer simulation study of the diffusion of water molecules confined in silica gel // Condensed Matter Physics. - 2004. - 7, № 1.
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Patsahan T. Computer simulations of the dynamic properties of methane in a model silica gel // Condensed Matter Physics. - 2003. - 6, № 1.
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D. di Caprio Density field theory to study association in a Yukawa fluid. Role of the fluctuations // Condensed Matter Physics. - 2003. - 6, № 4.
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Kalyuzhnyi Yu. V. Polymer mean spherical approximation for the fluid of flexible hard-sphere Yukawa star molecules // Condensed Matter Physics. - 2002. - 5, № 2.
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Vakarin E. V. Selective adsorption from polymer mixtures on solid surfaces // Condensed Matter Physics. - 2001. - 4, № 4.
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Patsahan T. Simple fluid in an attractive, disordered polydisperse matrix // Condensed Matter Physics. - 2004. - 7, № 2.
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Holovko M. F. The contact theorem and sum rules in the theory of electrical double layer // Condensed Matter Physics. - 2005. - 8, № 2.
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Druchok M. A molecular dynamics study of <$E bold roman Al sup 3+> in water: hydrolysis effects // Condensed Matter Physics. - 2004. - 7, № 4.
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Holovko M. F. Ion-dipole model for electrolyte solutions: Application of the associative mean spherical approximation // Condensed Matter Physics. - 2007. - 10, № 3.
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Patsahan T. Molecular dynamics study of aqueous uranyl in hydrophilic mesoporous confinement: the case of slit-like pore in amorphous silica // Condensed Matter Physics. - 2007. - 10, № 2.
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