Yu. N. Nizel'skii scite author profile

Yu. N. Nizel'skii

5Publications

6Citation Statements Received

7Citation Statements Given

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Affiliations

National Academy of Sciences of Ukraine, Institute of Macromolecular Compounds, Russian Academy of Sciences

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The Effect of Molecular Structuring of an Incompatible Linear Polymer-Net Polymer System on Its Micro-Heterogeneity under the Effect of 3d-Metal Chelates

et al. 2005

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The influence of the nature of the central ion [Cu(2+), Cr(3+), Fe(3+)] of the chelate compound on the possibility of interaction of the metal-containing modifier with one or both of the components of the incompatible PU/PMMA system was studied by the ESR method. It was shown by low-angle X-ray diffraction that the change in the degree of microheterogeneity of the semi-IPN correlated with the characteristics of complex forming metal and the polymer matrix.The possibility of the introduction of metal ions into the matrix (polymerization of metal-containing precursors, chemical bonding to the polymer chain, filling, etc.), the nature of the metal ion, its electronic configuration, and the structure of the organometallic modifier, in addition to the nature and conditions for the formation of the polymeric matrix, affect the properties of the metal-containing polymers formed in situ and the processes of their structure formation [1-6]. The interpenetrating and semi-interpenetrating polymer network (semi-IPN) based on the incompatible components is characterized by the microheterogeneity of the structure on the nanoscale caused by the incomplete process of microphase separation [1,4,6], which may result from the important affect of the presence of metal complexes in the reaction mixture.In the present work the structural formation in situ of semi-interpenetrating polymer networks based on incompatible pairs of polyurethane and linear polymethylmethacrylate networks in the presence of Cu(2+), Cr(3+), and Fe(3+) chelates was studied. EXPERIMENTALThe semi-IPN were obtained by simultaneous formation of a polyurethane network (PU) and polymethylmethacrylate (PMMA), carried out by various mechanisms (ionic and radical polycondensation respectively). The PU network was obtained by the interaction of trimethylolpropane with a macrodiisocyanate based oligo-oxypropylenglycol (OPG) M = 1000 and toluidene diisocyanate (a 65/35 mixture of 2,4-and 2,6-TDI ). Methyl methacrylate with 2,2¢-azobisisobutyronitrile (0.005 mol/L) was introduced into the reaction mixture. During the formation stage 1% by mass of iron acetylacetonate [Fe(acac) 3 ], chromium acetylacetonate [Cr(acac) 3 ], or copper ethyl acetoacetate [Cu(eacac) 2 ] was introduced. After consolidating the composition between parallel glass sheets, the protected sheets were cushioned with silicone, and the samples were heated at 333 K in vacuum to constant weight. 0040-5760/05/4104-0265

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Ester-group conformations in carbamates, allophanates, and methacrylates

Козак¹,

Nizel'skii²

1987

J Struct Chem

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Investigation of the influence of ligands in coordination compounds of copper on their catalytic activity in the reaction of urethane formation

1976

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Investigation of the structure of polyurethanes cross-linked with the ions of divalent 3d metals by a paramagnetic probe method

Козак¹,

Kosyanchuk²,

Lipatov³

et al. 2000

Theor Exp Chem

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Quantum chemical study of the nature of active sites in catalytic trimerization of isocyanates

et al. 1983

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Yu. N. Nizel'skii

The Effect of Molecular Structuring of an Incompatible Linear Polymer-Net Polymer System on Its Micro-Heterogeneity under the Effect of 3d-Metal Chelates

Ester-group conformations in carbamates, allophanates, and methacrylates

Investigation of the influence of ligands in coordination compounds of copper on their catalytic activity in the reaction of urethane formation

Investigation of the structure of polyurethanes cross-linked with the ions of divalent 3d metals by a paramagnetic probe method

Quantum chemical study of the nature of active sites in catalytic trimerization of isocyanates

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