N. E. Kaliuzhnyi scite author profile

Polymers of norbornenes with %Me3 and Si(Me2)CH,SiMe3 groups were synthesized and mass transfer properties of the polymers were studied. Ring-opening polymerizations of these monomers were realized in the presence of homogeneous WC16-based and heterogeneous Re,O,-based metathesis catalysts. Introduction of silicon-containing groups in the polynorbornene main chain results in a drastic increase of the permeability (P) and diffusion (0) coefficients for different biatomic and multiatomic gases. Comparison of polymers having SiMe, and Si(Mez)CH2SiMe3 substituents shows lower permeability and diffusion coefficients in the latter case. The combination of transport properties (Pi values) and separation factors aii = Pi/Pj of the two new silicon-containing polynorbornenes permits one to consider them as representatives of the most permeable and sufficiently permselective group of polymers. Transport properties of the polymers studied were analysed on the basis of the free volume approach. CCC 0025-1 16)

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Sorption of n-alkanes in poly(vinyltrimethylsilane) studied by inverse gas chromatography

Yampolskii

Durgarjan

Kaliuzhnyi

1984

Journal of Chromatography A

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N. E. Kaliuzhnyi

Thermodynamics of sorption in glassy poly(vinyltrimethylsilane)

Gas and vapor permeation and sorption in poly (trimetylsilylpropyne)

Ring‐opening metathesis polymerization of norbornenes with organosilicon substituents. Gas permeability of polymers obtained

Sorption of n-alkanes in poly(vinyltrimethylsilane) studied by inverse gas chromatography

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