Membrane Materials for Gas and Separation - Synthesis and Application Fo Silicon-Containing Polymers

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Informationen zum Autor Editors Yuri Yampolskii Eugene Finkelshtein A.V. Topchiev Institute of Petrochemical Synthesis, RAS, Moscow, Russia Klappentext Si containing polymers have been instrumental in the development of membrane gas separation practices since the early 1970s. Their function is to provide a selective barrier for different molecular species, where selection takes place either on the basis of size or on the basis of physical interactions or both.* Combines membrane science, organosilicon chemistry, polymer science, materials science, and physical chemistry* Only book to consider polymerization chemistry and synthesis of Si-containing polymers (both glassy and rubbery), and their role as membrane materials* Membrane operations present environmental benefits such as reduced waste, and recovered/recycled valuable raw materials that are currently lost to fuel or to flares Zusammenfassung Si containing polymers have been instrumental in the development of membrane gas separation practices since the early 1970s. Their function is to provide a selective barrier for different molecular species, where selection takes place either on the basis of size or on the basis of physical interactions or both. Inhaltsverzeichnis Contributors xi  Preface xv  1 Permeability of Polymers 1 Yuri Yampolskii   1.1 Introduction 1  1.2 Detailed mechanism of sorption and transport 3  1.2.1 Transition-state model 3  1.2.2 Free volume model 4  1.2.3 Sorption isotherms 5  1.3 Concentration dependence of permeability and diffusion coefficients 6  1.4 Effects of properties of gases and polymers on permeation parameters 10  Acknowledgement 13  References 13  2 Organosiloxanes (Silicones), Polyorganosiloxane Block Copolymers: Synthesis, Properties, and Gas Permeation Membranes Based on Them 17 Igor Raygorodsky, Victor Kopylov, and Alexander Kovyazin   2.1 Introduction 17  2.2 Synthesis and transformations of organosiloxanes 17  2.2.1 Polyorganosiloxanes with aminoalkyl groups at silicon 19  2.2.2 Organosilicon alcohols and phenols 21  2.3 Synthesis of polyorganosiloxane block copolymers 23  2.3.1 Polyester(ether)-polyorganosiloxane block copolymers 24  2.3.2 Synthesis of polyurethane-, polyurea-, polyamide-, polyimide- organosiloxane POBCs 25  2.4 Properties of polyorganosiloxane block copolymers 29  2.4.1 Phase state of polyblock organosiloxane copolymers 29  2.5 Morphology of POBCs and its effects on their diffusion properties 30  2.5.1 Types of heterogeneous structure 30  2.6 Some representatives of POBC as membrane materials and their properties 32  2.6.1 Polycarbonate-polysiloxanes 32  2.6.2 Polyurethane(urea)-polysiloxanes 39  2.6.3 Polyimide(amide)-polysiloxanes 42  2.7 Conclusions 45  References 46  3 Polysilalkylenes 53 Nikolay V. Ushakov, Stepan Guselnikov, and Eugene Finkelshtein   Acknowledgement 65  References 65  4 Polyvinylorganosilanes: The Materials for Membrane Gas Separation 69 Nikolay V. Ushakov   4.1 Introduction: Historical background 69  4.2 Syntheses and polymerization of vinyltriorganosilanes 71  4.2.1 Syntheses of vinyltriorganosilanes 71  4.2.2 Vinyltriorganosilane (VTOS) polymerization 73  4.2.2.1 VTOS homopolymerization 73  4.2.2.2 Statistical copolymerization of VTOS with other monomers 83  4.2.2.3 Block-copolymerization of VTOS with monomers of other types 85  4.3 Physico-chemical and membrane properties of polymeric PVTOS materials 88  4.4 Concluding remarks 94  Acknowledgement 95  References 95  5 Substituted Polyacetylenes 107 Toshikazu Sakaguchi, Yanming Hu, and Toshio Masuda...