Verfügbarkeit: Silicon-containing dendritic polymers

Silicon-containing dendritic polymers:

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Format:	Buch
Sprache:	English
Veröffentlicht:	[Dordrecht] Springer 2009
Schriftenreihe:	Advances in silicon science 2
Schlagworte:	Dendrimers Silicon polymers Silicon-Polymere Sternpolymere
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XV, 428 S. Ill., graph. Darst.
ISBN:	9781402081736

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245	1	0	\|a Silicon-containing dendritic polymers \|c Petar R. Dvornic ; Michael J. Owen, eds.
246	1	3	\|a Silicon containing dendritic polymers
264		1	\|a [Dordrecht] \|b Springer \|c 2009
300			\|a XV, 428 S. \|b Ill., graph. Darst.
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Datensatz im Suchindex

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adam_text	Contents 1 The Role of Silicon in Dendritic Polymer Chemistry ........................... 1 Petar R. Dvornic and Michael J. Owen 1.1 Introduction ....................................................................................... 1 1.2 Dendrimers and Hyperbranched Polymers ....................................... 4 1.2.1 Dendrimers ............................................................................ 4 1.2.2 Hyperbranched Polymers ...................................................... 10 1.3 A Brief Historical Overview of the Main Developments in Dendrimers and Hyperbranched Polymers ................................... 13 1.4 Silicon in Dendritic Polymers ........................................................... 15 2 Polysiloxane and Siloxane-Based Dendrimers ...................................... 21 Aziz Muzafarov and Evgenij Rebrov 2.1 Introduction: Historical Background ................................................. 21 2.2 Chemistry of Siloxane Dendrimers ................................................... 22 2.3 Peculiarities of Siloxane Dendrimers ................................................ 25 2.4 Prospects for Further Development in the Chemistry of Siloxane Dendrimers ..................................................................... 28 3 Carbosilane Dendrimers ......................................................................... 31 Jacques Roovers and Jianfu Ding 3.1 Introduction ....................................................................................... 31 3.2 Synthesis of Carbosilane Dendrimers ............................................... 32 3.2.1 Core Molecules ..................................................................... 33 3.2.2 Interior Generations .............................................................. 38 3.2.3 Peripheral (Corona; End-Groups) Modification ................... 43 3.3 Carbosilane Dendrimer Characterization .......................................... 60 3.4 Properties of Carbosilane Dendrimers .............................................. 62 3.4.1 Molecular Dimensions of Carbosilane Dendrimers .............. 62 3.4.2 Dynamics of Carbosilane Dendrimers .................................. 66 Contents viii 4 Polysilane Dendrimers ............................................................................. Masato Nanjo and Akira Sekiguchi 4.1 Introduction ....................................................................................... 4.2 Synthetic Approaches to Polysilane Dendrimers .............................. 76 4.2.1 Convergent Methods ............................................................. 76 4.2.2 Divergent Methods ................................................................ 79 4.2.3 Double-Cored Polysilane Dendrimers .................................. 81 4.2.4 Functionalized Polysilane Dendrimers ................................. 84 4.3 NMR Spectroscopy of Polysilane Dendrimers ................................. 85 4.4 Crystallography and Conformation of Polysilane Dendrimers ......... 87 4.5 Electronic Spectra ............................................................................. 91 4.6 Conclusions and Future Outlook ....................................................... 94 5 Polycarbosilazane and Related Dendrimers and Hyperbranched Polymers ................................................................ 97 David Y. Son 5.1 Introduction ....................................................................................... 97 5.2 Polycarbosilazane Dendrimers .......................................................... 98 5.3 Polysilazane Dendrimers .................................................................. 99 5.4 Related Dendrimers .......................................................................... 100 5.5 Hyperbranched Polycarbosilazanes .................................................. 101 5.6 Concluding Remarks ......................................................................... 102 6 Silyl Ether Containing Dendrimers with Cyclic Siloxane Cores ......... 105 Chungkyun Kim 6.1 Introduction ....................................................................................... 105 6.2 Siloxane Dendrimers with Cyclic Siloxane Core (0G(4)-Vinyl) ...... 106 6.3 Synthesis of Dendrimers with Si-O-C Units from Cyclic Siloxane Cores ....................................................................... 108 6.3.1 General Synthetic Strategy from 0G(4)-Vinyl Core ............. 108 6.3.2 Dendrimers with Organic Functional End-Groups ............... 108 6.3.3 Dendrimers with Triple Bonds .............................................. 109 6.3.4 Double-Layered Dendrimers with Conjugated Branches ..................................................................... j ¡О 6.3.5 Ferrocenyl-Functionalized Dendrimers as COGas Sensor .................................................................. j 12 6.3.6 Water Soluble Dendrimers .................................................. П2 6.3.7 Dendrimers with Terpyridine Ruthenium Complex End-Groups .................................................. j 14 6.3.8 Dendrimers with Farnesyl End-Groups ................................ 114 6.3.9 Diels-Alder Reaction on Dendrimer Periphery ............... 116 6.4 Dendrimers with Silsesquioxane Core ...................................... ....... 1 17 6.5 Conclusion ...................... ......................................................................... Ilo Contents Polyhedral Oligomeríc Silsesquioxane Dendrimers .............................. 121 Katherine J. Haxton and Russell E. Morris 7.1 Introduction ....................................................................................... 121 7.2 Synthesis of Silsesquioxanes and Silicates ....................................... 123 7.2.1 Silsesquioxanes ..................................................................... 123 7.2.2 Silicates ................................................................................. 124 7.2.3 Functionalizing Silsesquioxanes and Silicates ...................... 125 7.3 Synthesis of POSS and Silicate Dendrimers ..................................... 126 7.3.1 POSS Dendrimer Synthesis ................................................... 126 7.3.2 Silicate Dendrimer Synthesis ................................................ 129 7.3.3 Characterization .................................................................... 130 7.4 Applications of POSS and Silicate Dendrimers ................................ 130 7.4.1 Homogeneous Catalysis ........................................................ 130 7.4.2 Electro- and Redox-Active Dendrimers ................................ 133 7.4.3 Liquid Crystals ...................................................................... 133 7.4.4 Transition Metal Binding ...................................................... 134 7.4.5 POSS-PAMAM Nanocomposites ......................................... 135 7.4.6 Gene Transfection ................................................................. 136 7.5 Conclusion ........................................................................................ 137 Organometallic Silicon-Containing Dendrimers and Their Electrochemical Applications ................................................ 141 Isabel Cuadrado 8.1 Introduction ....................................................................................... 141 8.2 Synthetic Strategies and Redox Properties of Organometallic Silicon-Containing Dendritic Macromolecules ................................................................................ 145 8.2.1 Functionalization of Silicon-Based Dendritic Scaffolds with Electroactive Organometallic Moieties ......................... 147 8.2.2 Silicon-Based Dendrimers from Organometallic Moieties ................................................................................. 163 8.3 Electrochemical Applications of Ferrocenyl Silicon-Containing Dendritic Molecules .......................................................................... 183 8.3.1 Ferrocenyl Dendrimers with Si-NH Linkages as Redox Sensors for Recognition of Inorganic Anions ....... 183 8.3.2 Ferrocenyl Silicon-Containing Dendrimers as Electron-Transfer Mediators in Amperometric Biosensors ............................................................................. 186 8.3.3 Electrocatalytic Oxidation of Ascorbic Acid Mediated by a Ferrocenyl Siloxane-Based Network Polymer .............. 189 8.4 Concluding Remarks ......................................................................... 191 Contents 9 Carbosilane Dendrimers: Molecular Supports and Containers for Homogeneous Catalysis and Organic Synthesis ........................................................................... Maaike Wander, Robertus J.M. Klein Gebbink, and Gerard van Koten 1Q7 9.1 Introduction ................................................................................... 9.2 Carbosilane Dendrimers with Covalently Bound Catalysts .......... 201 9.2.1 Synthesis and Structural Aspects of Phosphine-Based Dendrimer Catalysts ....................... 201 9.2.2 Catalytic Reactivity of Phosphine-Based Dendrimer Catalysts ........................................................ 203 9.2.3 Synthesis and Structural Aspects of Non-phosphine-Based Dendrimer Catalysts ................... 213 9.2.4 Catalytic Reactivity of Non-phosphine-Based Dendrimer Catalysts ........................................................ 214 9.3 Supported Organic Synthesis on Soluble Carbosilanes ................ 228 9.4 Conclusions and Future Outlook ................................................... 230 10 Liquid Crystalline Silicon-Containing Dendrimers with Terminal Mesogenic Groups ......................................................... 237 Valéry Shibaev and Natalia Boiko 10.1 Introduction ................................................................................... 237 10.2 Peculiarities of the Molecular Structure of LC Silicon-Containing Dendrimers .......................................... 240 10.3 Polyorganosiloxane Dendrimers with Terminal Mesogenic Groups ........................................................................ 241 10.4 Carbosilane LC Dendrimers .......................................................... 246 10.4.1 Synthesis of Carbosilane LC Dendrimers with Different Molecular Architectures .......................... 249 10.4.2 Structural Organization and Phase Behavior of Carbosilane LC Dendrimers ....................................... 252 10.5 Chiral Carbosilane LC Dendrimers with Ferroelectric Properties 262 10.6 Photochromic LC Carbosilane Dendrimers .................................. 269 10.6.1 Phase Behavior and Structure ......................................... 272 10.6.2 Photochemical and Photooptical Properties .................... 274 10.7 Conclusions and Future Outlook ................................................... 279 11 Silicon-Organic Dendrimers ................................................................. 285 Petar R. Dvornic, Michael J. Owen, and Rakesh Sachdeva 11.1 Introduction ........................................... 285 11.2 PAMAMOS: РАМАМ Dendrimers with Silicon-Containing End-Groups ..................................... 2Й7 11.3 PAMAMOS Multi-arm Star Polymers ............. 291 11.4 PAMAMOS Networks ....................................... ľ.ľZZľ Z 294 11.5 PAMAMOS Networks Nanocomplexes and Nanocomposites 298 11.6 Copolymeric PAMAMOS Dendrimers .................................... . 302 Contents xj 11.7 Other Silicon-Organic Dendrimers ............................................... 306 11.7.1 Dendrimers with Silicon in the Core............................... 306 11.7.2 Dendrimers with Silicon in Their Interiors..................... 308 11.7.3 Dendrimers (Other than PAMAMOS) with Silicon in the End-Groups ........................................................... 311 12 Hyperbranched Polycarbosilanes via Nucleophilic Substitution Reactions ........................................................................... 315 Leonard Interrante and Qionghua Shen 12.1 Introduction ................................................................................... 315 12.2 Hyperbranched Polycarbosilanes from AB3 Monomers............... 317 12.2.1 From Chloromethyltrichlorosilane.................................. 317 12.2.2 From 2-Bromo-5-trimethoxysilylthiophene.................... 325 12.2.3 From 2-Bromoethyltrichlorosilane .................................. 327 12.2.4 From 3- or 4-Bromophenyltriethoxysilane ..................... 327 12.2.5 From Other Monomers .................................................... 328 12.3 Hyperbranched Polycarbosilanes from AB, Monomers ............... 331 12.3.1 From Chloromethylmethyldichlorosilane ....................... 331 12.3.2 From ClO^CH^HSiMeCl, and CH^CíCH^DSiMeCÇ .......................................... 333 12.3.3 Other Monomers ............................................................. 335 12.4 Hyperbranched Polycarbosilanes from Α,Β, -Туре Monomers ..... 336 12.5 Hyperbranched Co-Polycarbosilanes ............................................ 338 12.5.1 Co-Polycarbosilanes from Phenyltrichlorosilane, Diphenyldichlorosilane and Dibromomethane ............... 338 12.5.2 Copolymer from СІСН^ЦОМе), „Cl, 2¡ and ClCH^iMeCl ....... .................................................... 340 12.5.3 Copolymer from C^CHSiMeCl, and COLjSKOMe^Cl, ,5 ......*..................................... 341 12.6 Conclusion and Future Outlook .................................................... 342 13 Hyperbranched Polycarbosilanes and Polycarbosiloxanes via Hydrosilylation Polymerization ...................................................... 345 Hanna Schule and Holger Frey 13.1 Introduction ................................................................................... 345 13.2 Hydrosilylation .............................................................................. 346 13.3 Synthesis and Characterization of Silicon-Containing Hyperbranched Polymers .............................................................. 349 13.4 Polycarbosilanes ............................................................................ 351 13.4.1 General Synthetic Strategy .............................................. 351 13.4.2 Functionalization ............................................................. 357 13.4.3 Block Copolymers ........................................................... 361 13.5 Polycarbosiloxanes ........................................................................ 363 13.5.1 General Synthetic Strategy .............................................. 363 13.5.2 Polymer Modification and Application ........................... 367 Contents xii 13.6 Polyalkoxysilanes.......................................................................... 37° 13.7 Polycarbosilazanes........................................................................ 13.8 Summary and Perspectives ............................................................ 372 14 Rearranging Hyperbranched Silyl Ether Polymers 377 Daniel Graiver 14.1 Introduction ................................................................................... 377 14.2 Monomer Synthesis ....................................................................... 379 14.3 Polymerization Reactions .............................................................. 381 14.4 Rearrangement Reactions .............................................................. 384 14.5 Possible Applications .................................................................... 386 15 Cyclization Issues in Silicon-Containing Hyperbranched Polymers ...................................................................... 391 David Y. Son 15.1 Introduction ................................................................................... 391 15.2 Intramolecular Cyclization of the Monomer ................................. 392 15.3 Intramolecular Cyclization of Oligomers ...................................... 393 15.4 Controlling Cyclization ................................................................. 396 15.4.1 Controlling Monomer Cyclization .................................. 396 15.4.2 Controlling Cyclization of Oligomers ............................. 398 15.5 Concluding Remarks ..................................................................... 399 16 Hyperbranched Silicon-Containing Polymers via Bimolecular Non-linear Polymerization ........................................ 401 Petar R. Dvornic and Dale J. Meier 16.1 Introduction ................................................................................... 401 16.2 Historical Development of Bimolecular Non-linear Polymerization ............................................................ 402 16.3 Theory of Ax + By Bimolecular Non-linear Polymerization ......... 404 16.4 Bimolecular Non-linear Polymerization by Hydrosilylation ........ 407 16.4.1 Hyperbranched Polycarbosilanes and Polycarbosiloxanes ................................................... 408 16.4.2 Hyperbranched Polymer Networks ................................. 408 16.4.3 Perfluorinated Hyperbranched Polycarbosiloxanes ........ 411 16.4.4 Hyperbranched Polycarbosiloxanes with Latent Functionalities .................................... 4P 16.5 Bimolecular Non-linear Polymerization by Nucleophilic Substitution Reactions .............................................. 413 16.5.1 Hyperbranched Silarylenesiloxanes ................................ 413 16.5.2 Hyperbranched Polysiloxanes ............................... ....... 414 16.6 Siliconized Hyperbranched Polymers by BMNLP ...... ZZZZZ. ...... 415 16.7 Conclusions and Future Outlook ..................................... ........ 417 Index ............ .................................................................................................. 421
adam_txt	Contents 1 The Role of Silicon in Dendritic Polymer Chemistry . 1 Petar R. Dvornic and Michael J. Owen 1.1 Introduction . 1 1.2 Dendrimers and Hyperbranched Polymers . 4 1.2.1 Dendrimers . 4 1.2.2 Hyperbranched Polymers . 10 1.3 A Brief Historical Overview of the Main Developments in Dendrimers and Hyperbranched Polymers . 13 1.4 Silicon in Dendritic Polymers . 15 2 Polysiloxane and Siloxane-Based Dendrimers . 21 Aziz Muzafarov and Evgenij Rebrov 2.1 Introduction: Historical Background . 21 2.2 Chemistry of Siloxane Dendrimers . 22 2.3 Peculiarities of Siloxane Dendrimers . 25 2.4 Prospects for Further Development in the Chemistry of Siloxane Dendrimers . 28 3 Carbosilane Dendrimers . 31 Jacques Roovers and Jianfu Ding 3.1 Introduction . 31 3.2 Synthesis of Carbosilane Dendrimers . 32 3.2.1 Core Molecules . 33 3.2.2 Interior Generations . 38 3.2.3 Peripheral (Corona; End-Groups) Modification . 43 3.3 Carbosilane Dendrimer Characterization . 60 3.4 Properties of Carbosilane Dendrimers . 62 3.4.1 Molecular Dimensions of Carbosilane Dendrimers . 62 3.4.2 Dynamics of Carbosilane Dendrimers . 66 Contents viii 4 Polysilane Dendrimers . Masato Nanjo and Akira Sekiguchi 4.1 Introduction . 4.2 Synthetic Approaches to Polysilane Dendrimers . 76 4.2.1 Convergent Methods . 76 4.2.2 Divergent Methods . 79 4.2.3 Double-Cored Polysilane Dendrimers . 81 4.2.4 Functionalized Polysilane Dendrimers . 84 4.3 NMR Spectroscopy of Polysilane Dendrimers . 85 4.4 Crystallography and Conformation of Polysilane Dendrimers . 87 4.5 Electronic Spectra . 91 4.6 Conclusions and Future Outlook . 94 5 Polycarbosilazane and Related Dendrimers and Hyperbranched Polymers . 97 David Y. Son 5.1 Introduction . 97 5.2 Polycarbosilazane Dendrimers . 98 5.3 Polysilazane Dendrimers . 99 5.4 Related Dendrimers . 100 5.5 Hyperbranched Polycarbosilazanes . 101 5.6 Concluding Remarks . 102 6 Silyl Ether Containing Dendrimers with Cyclic Siloxane Cores . 105 Chungkyun Kim 6.1 Introduction . 105 6.2 Siloxane Dendrimers with Cyclic Siloxane Core (0G(4)-Vinyl) . 106 6.3 Synthesis of Dendrimers with Si-O-C Units from Cyclic Siloxane Cores . 108 6.3.1 General Synthetic Strategy from 0G(4)-Vinyl Core . 108 6.3.2 Dendrimers with Organic Functional End-Groups . 108 6.3.3 Dendrimers with Triple Bonds . 109 6.3.4 "Double-Layered" Dendrimers with Conjugated Branches . j ¡О 6.3.5 Ferrocenyl-Functionalized Dendrimers as COGas Sensor . j 12 6.3.6 Water Soluble Dendrimers . П2 6.3.7 Dendrimers with Terpyridine Ruthenium Complex End-Groups . j 14 6.3.8 Dendrimers with Farnesyl End-Groups . 114 6.3.9 Diels-Alder Reaction on Dendrimer Periphery . 116 6.4 Dendrimers with Silsesquioxane Core . . 1 17 6.5 Conclusion . . Ilo Contents Polyhedral Oligomeríc Silsesquioxane Dendrimers . 121 Katherine J. Haxton and Russell E. Morris 7.1 Introduction . 121 7.2 Synthesis of Silsesquioxanes and Silicates . 123 7.2.1 Silsesquioxanes . 123 7.2.2 Silicates . 124 7.2.3 Functionalizing Silsesquioxanes and Silicates . 125 7.3 Synthesis of POSS and Silicate Dendrimers . 126 7.3.1 POSS Dendrimer Synthesis . 126 7.3.2 Silicate Dendrimer Synthesis . 129 7.3.3 Characterization . 130 7.4 Applications of POSS and Silicate Dendrimers . 130 7.4.1 Homogeneous Catalysis . 130 7.4.2 Electro- and Redox-Active Dendrimers . 133 7.4.3 Liquid Crystals . 133 7.4.4 Transition Metal Binding . 134 7.4.5 POSS-PAMAM Nanocomposites . 135 7.4.6 Gene Transfection . 136 7.5 Conclusion . 137 Organometallic Silicon-Containing Dendrimers and Their Electrochemical Applications . 141 Isabel Cuadrado 8.1 Introduction . 141 8.2 Synthetic Strategies and Redox Properties of Organometallic Silicon-Containing Dendritic Macromolecules . 145 8.2.1 Functionalization of Silicon-Based Dendritic Scaffolds with Electroactive Organometallic Moieties . 147 8.2.2 Silicon-Based Dendrimers from Organometallic Moieties . 163 8.3 Electrochemical Applications of Ferrocenyl Silicon-Containing Dendritic Molecules . 183 8.3.1 Ferrocenyl Dendrimers with Si-NH Linkages as Redox Sensors for Recognition of Inorganic Anions . 183 8.3.2 Ferrocenyl Silicon-Containing Dendrimers as Electron-Transfer Mediators in Amperometric Biosensors . 186 8.3.3 Electrocatalytic Oxidation of Ascorbic Acid Mediated by a Ferrocenyl Siloxane-Based Network Polymer . 189 8.4 Concluding Remarks . 191 Contents 9 Carbosilane Dendrimers: Molecular Supports and Containers for Homogeneous Catalysis and Organic Synthesis . Maaike Wander, Robertus J.M. Klein Gebbink, and Gerard van Koten 1Q7 9.1 Introduction . 9.2 Carbosilane Dendrimers with Covalently Bound Catalysts . 201 9.2.1 Synthesis and Structural Aspects of Phosphine-Based Dendrimer Catalysts . 201 9.2.2 Catalytic Reactivity of Phosphine-Based Dendrimer Catalysts . 203 9.2.3 Synthesis and Structural Aspects of Non-phosphine-Based Dendrimer Catalysts . 213 9.2.4 Catalytic Reactivity of Non-phosphine-Based Dendrimer Catalysts . 214 9.3 Supported Organic Synthesis on Soluble Carbosilanes . 228 9.4 Conclusions and Future Outlook . 230 10 Liquid Crystalline Silicon-Containing Dendrimers with Terminal Mesogenic Groups . 237 Valéry Shibaev and Natalia Boiko 10.1 Introduction . 237 10.2 Peculiarities of the Molecular Structure of LC Silicon-Containing Dendrimers . 240 10.3 Polyorganosiloxane Dendrimers with Terminal Mesogenic Groups . 241 10.4 Carbosilane LC Dendrimers . 246 10.4.1 Synthesis of Carbosilane LC Dendrimers with Different Molecular Architectures . 249 10.4.2 Structural Organization and Phase Behavior of Carbosilane LC Dendrimers . 252 10.5 Chiral Carbosilane LC Dendrimers with Ferroelectric Properties 262 10.6 Photochromic LC Carbosilane Dendrimers . 269 10.6.1 Phase Behavior and Structure . 272 10.6.2 Photochemical and Photooptical Properties . 274 10.7 Conclusions and Future Outlook . 279 11 Silicon-Organic Dendrimers . 285 Petar R. Dvornic, Michael J. Owen, and Rakesh Sachdeva 11.1 Introduction . 285 11.2 PAMAMOS: РАМАМ Dendrimers with Silicon-Containing End-Groups . 2Й7 11.3 PAMAMOS Multi-arm Star Polymers . 291 11.4 PAMAMOS Networks . ľ.ľZZľ'Z" 294 11.5 PAMAMOS Networks Nanocomplexes and Nanocomposites 298 11.6 Copolymeric PAMAMOS Dendrimers .'. " 302 Contents xj 11.7 Other Silicon-Organic Dendrimers . 306 11.7.1 Dendrimers with Silicon in the Core. 306 11.7.2 Dendrimers with Silicon in Their Interiors. 308 11.7.3 Dendrimers (Other than PAMAMOS) with Silicon in the End-Groups . 311 12 Hyperbranched Polycarbosilanes via Nucleophilic Substitution Reactions . 315 Leonard Interrante and Qionghua Shen 12.1 Introduction . 315 12.2 Hyperbranched Polycarbosilanes from AB3 Monomers. 317 12.2.1 From Chloromethyltrichlorosilane. 317 12.2.2 From 2-Bromo-5-trimethoxysilylthiophene. 325 12.2.3 From 2-Bromoethyltrichlorosilane . 327 12.2.4 From 3- or 4-Bromophenyltriethoxysilane . 327 12.2.5 From Other Monomers . 328 12.3 Hyperbranched Polycarbosilanes from AB, Monomers . 331 12.3.1 From Chloromethylmethyldichlorosilane . 331 12.3.2 From ClO^CH^HSiMeCl, and CH^CíCH^DSiMeCÇ . 333 12.3.3 Other Monomers . 335 12.4 Hyperbranched Polycarbosilanes from Α,Β, -Туре Monomers . 336 12.5 Hyperbranched Co-Polycarbosilanes . 338 12.5.1 Co-Polycarbosilanes from Phenyltrichlorosilane, Diphenyldichlorosilane and Dibromomethane . 338 12.5.2 Copolymer from СІСН^ЦОМе), „Cl, 2¡ and ClCH^iMeCl .'. 340 12.5.3 Copolymer from C^CHSiMeCl, and COLjSKOMe^Cl, ,5 .*. 341 12.6 Conclusion and Future Outlook . 342 13 Hyperbranched Polycarbosilanes and Polycarbosiloxanes via Hydrosilylation Polymerization . 345 Hanna Schule and Holger Frey 13.1 Introduction . 345 13.2 Hydrosilylation . 346 13.3 Synthesis and Characterization of Silicon-Containing Hyperbranched Polymers . 349 13.4 Polycarbosilanes . 351 13.4.1 General Synthetic Strategy . 351 13.4.2 Functionalization . 357 13.4.3 Block Copolymers . 361 13.5 Polycarbosiloxanes . 363 13.5.1 General Synthetic Strategy . 363 13.5.2 Polymer Modification and Application . 367 Contents xii 13.6 Polyalkoxysilanes. 37° 13.7 Polycarbosilazanes. 13.8 Summary and Perspectives . 372 14 Rearranging Hyperbranched Silyl Ether Polymers 377 Daniel Graiver 14.1 Introduction . 377 14.2 Monomer Synthesis . 379 14.3 Polymerization Reactions . 381 14.4 Rearrangement Reactions . 384 14.5 Possible Applications . 386 15 Cyclization Issues in Silicon-Containing Hyperbranched Polymers . 391 David Y. Son 15.1 Introduction . 391 15.2 Intramolecular Cyclization of the Monomer . 392 15.3 Intramolecular Cyclization of Oligomers . 393 15.4 Controlling Cyclization . 396 15.4.1 Controlling Monomer Cyclization . 396 15.4.2 Controlling Cyclization of Oligomers . 398 15.5 Concluding Remarks . 399 16 Hyperbranched Silicon-Containing Polymers via Bimolecular Non-linear Polymerization . 401 Petar R. Dvornic and Dale J. Meier 16.1 Introduction . 401 16.2 Historical Development of Bimolecular Non-linear Polymerization . 402 16.3 Theory of Ax + By Bimolecular Non-linear Polymerization . 404 16.4 Bimolecular Non-linear Polymerization by Hydrosilylation . 407 16.4.1 Hyperbranched Polycarbosilanes and Polycarbosiloxanes . 408 16.4.2 Hyperbranched Polymer Networks . 408 16.4.3 Perfluorinated Hyperbranched Polycarbosiloxanes . 411 16.4.4 Hyperbranched Polycarbosiloxanes with Latent Functionalities . 4P 16.5 Bimolecular Non-linear Polymerization by Nucleophilic Substitution Reactions . 413 16.5.1 Hyperbranched Silarylenesiloxanes . 413 16.5.2 Hyperbranched Polysiloxanes . . 414 16.6 Siliconized Hyperbranched Polymers by BMNLP . ZZZZZ. . 415 16.7 Conclusions and Future Outlook . . 417 Index . . 421
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id	DE-604.BV035185575
illustrated	Illustrated
index_date	2024-07-02T22:59:32Z
indexdate	2024-07-09T21:26:58Z
institution	BVB
isbn	9781402081736
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-016992268
oclc_num	258090027
open_access_boolean
owner	DE-703 DE-11
owner_facet	DE-703 DE-11
physical	XV, 428 S. Ill., graph. Darst.
publishDate	2009
publishDateSearch	2009
publishDateSort	2009
publisher	Springer
record_format	marc
series	Advances in silicon science
series2	Advances in silicon science
spelling	Silicon-containing dendritic polymers Petar R. Dvornic ; Michael J. Owen, eds. Silicon containing dendritic polymers [Dordrecht] Springer 2009 XV, 428 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Advances in silicon science 2 Dendrimers Silicon polymers Silicon-Polymere (DE-588)4456222-6 gnd rswk-swf Sternpolymere (DE-588)4245705-1 gnd rswk-swf Silicon-Polymere (DE-588)4456222-6 s Sternpolymere (DE-588)4245705-1 s DE-604 Dvornic, Petar R. Sonstige oth Owen, Michael J. Sonstige oth Erscheint auch als Online-Ausgabe 978-1-4020-8174-3 Advances in silicon science 2 (DE-604)BV035313944 2 Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016992268&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Silicon-containing dendritic polymers Advances in silicon science Dendrimers Silicon polymers Silicon-Polymere (DE-588)4456222-6 gnd Sternpolymere (DE-588)4245705-1 gnd
subject_GND	(DE-588)4456222-6 (DE-588)4245705-1
title	Silicon-containing dendritic polymers
title_alt	Silicon containing dendritic polymers
title_auth	Silicon-containing dendritic polymers
title_exact_search	Silicon-containing dendritic polymers
title_exact_search_txtP	Silicon-containing dendritic polymers
title_full	Silicon-containing dendritic polymers Petar R. Dvornic ; Michael J. Owen, eds.
title_fullStr	Silicon-containing dendritic polymers Petar R. Dvornic ; Michael J. Owen, eds.
title_full_unstemmed	Silicon-containing dendritic polymers Petar R. Dvornic ; Michael J. Owen, eds.
title_short	Silicon-containing dendritic polymers
title_sort	silicon containing dendritic polymers
topic	Dendrimers Silicon polymers Silicon-Polymere (DE-588)4456222-6 gnd Sternpolymere (DE-588)4245705-1 gnd
topic_facet	Dendrimers Silicon polymers Silicon-Polymere Sternpolymere
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016992268&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV035313944
work_keys_str_mv	AT dvornicpetarr siliconcontainingdendriticpolymers AT owenmichaelj siliconcontainingdendriticpolymers

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