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Book Categories |
Contributors | ||
Preface | ||
Pt. 1 | General Synthetic Methods | |
1.1 | Functional Polymers via Free-Radical Polymerization of Chloromethylstyrene | 3 |
1.2 | Functional Polymers via Anionic Polymerization | 19 |
1.3 | Functional Polyolefins via Ziegler-Natta Polymerization: The Borane Approach | 35 |
1.4 | Living Cationic Polymerization: Synthesis of End-Functionalized Polyisobutylenes | 57 |
1.5 | Perfect Diels-Alder Ladder Polymers: Precursors for Extended [pi]-Conjugation | 73 |
1.6 | Functional Polymers via Ring-Opening-Closing Alternating Copolymerization | 93 |
1.7 | Functionalized Polymers via Enzymatic Synthesis | 103 |
1.8 | Polymers Containing Phosphonic and Bis(phosponic acid) Groups | 115 |
1.9 | Amine-Containing Polymers: Amine-Functionalized Polyolefins | 133 |
1.10 | Metal-Containing Polymers and Interpenetrating Networks | 151 |
1.11 | Germylene and Stannylene Polymers | 169 |
1.12 | Silicon-Containing Monomers and Polymers | 183 |
1.13 | Functional Polymer Surfaces Produced from Cold Plasma | 201 |
1.14 | Functional Cellulose Derivatives | 227 |
1.15 | Chitin and Chitosan Derivatives | 239 |
1.16 | Development of Novel Materials from Proteins | 261 |
Pt. 2 | Radiation Effects and Applications | |
2.1 | Polymer Photochemistry and Photo-Cross-Linking | 273 |
2.2 | Photosensitive Polymers | 293 |
2.3 | Functional Polymers for Microlithography: Nonamplified Imaging Systems | 311 |
2.4 | Functional Polymers for Microlithography: Chemically Amplified Imaging Systems | 341 |
2.5 | Polymer Modification by Ion Implantation: Ion Bombardment and Characterization | 371 |
2.6 | Polymer Modification by Ion Implantation: Electrical Conductivity and Applications | 387 |
Pt. 3 | Optoelectronic Properties and Applications | |
3.1 | Photophysics of Functional Polymers | 407 |
3.2 | Liquid-Crystalline and Chiral Side-Chain Liquid-Crystalline Polymers | 427 |
3.3 | Monodomain Liquid-Crystalline Networks by In Situ Photopolymerization | 451 |
3.4 | Conducting Polymers | 463 |
3.5 | Transparent Polymers for Optical Applications | 489 |
3.6 | Functionalized Polymers for Second-Order Nonlinear Optics | 505 |
3.7 | Polymers for Activated Laser Switching | 529 |
Pt. 4 | Chemical and Physicochemical Applications | |
4.1 | Light-Harvesting Functional Polymers | 549 |
4.2 | Polymers for Solar-Energy Devices | 567 |
4.3 | Photoluminescent Polymers for Chemical Sensors | 589 |
4.4 | Functional Polymers for Chemical Sensors | 601 |
4.5 | Polymeric Stabilizers and Antioxidants | 621 |
4.6 | Functional Polymers for Selective Flocculation of Minerals | 635 |
Pt. 5 | Biomedical Applications | |
5.1 | Biocompatible Polymer Surfaces | 657 |
5.2 | Biomedical Polyurethanes | 677 |
5.3 | Homopolymers and Copolymers of 2-Hydroxyethyl Methacrylate for Biomedical Applications | 699 |
5.4 | Molecularly Designed Dental Polymers | 719 |
5.5 | Surface Modification of Hydroxyapatite for Dental Plaque Inhibition | 739 |
5.6 | Polymer-Drug Conjugates | 753 |
5.7 | Drug Targeting by Functional Polymers: Targeting of Polymer-Coated Liposomes | 769 |
Index | 789 |
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Add Desk Reference of Functional Polymers: Syntheses and Applications, Discusses the synthesis, properties, and current and potential applications of a wide variety of functional polymers in four major areas: radiation effects and applications, opolelectronic properties and applications, chemical and physicochemical app, Desk Reference of Functional Polymers: Syntheses and Applications to the inventory that you are selling on WonderClubX
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Add Desk Reference of Functional Polymers: Syntheses and Applications, Discusses the synthesis, properties, and current and potential applications of a wide variety of functional polymers in four major areas: radiation effects and applications, opolelectronic properties and applications, chemical and physicochemical app, Desk Reference of Functional Polymers: Syntheses and Applications to your collection on WonderClub |