Photoinitiators for polymer synthesis : scope, reactivity and efficiency / Jean-Pierre Fouassier and Jacques Lalevée

Von:

Fouassier, Jean-Pierre, 1947- [aut]

Mitwirkende(r):

Lalevée, Jacques, 1976- [oth]

Resource type: Ressourcentyp: Buch (Online)Buch (Online)Sprache: Englisch Verlag: Weinheim : Wiley-VCH, [2012]Auflage: Online-AusgBeschreibung: Online-Ressource (1 online resource (xxviii, 476 p.)) : IllISBN:

9781283714433
1283714434
9783527648276

Schlagwörter:

Andere physische Formen: 9783527648276 | 3527648275 | 3527332103 | 9783527332106 | 1283716135 | Erscheint auch als: Photoinitiators for polymer synthesis. Druck-Ausgabe Weinheim : Wiley-VCH-Verlag GmbH & Co. KGaA, 2012. XXVIII, 476 SeitenDDC-Klassifikation:

668.9'2 23
668.92

RVK: RVK: UV 2300LOC-Klassifikation:

QD382.P45

Online-Ressourcen:

Zugang im Netz des KIT

Zusammenfassung: Photoinitiating systems for polymerization reactions are largely encountered in a variety of traditional and high-tech sectors, such as radiation curing, (laser) imaging, (micro)electronics, optics, and medicine. This book extensively covers radical and nonradical photoinitiating systems and is divided into four parts: * Basic principles in photopolymerization reactions * Radical photoinitiating systems * Nonradical photoinitiating systems * Reactivity of the photoinitiating system The four parts present the basic concepts of photopolymerization reactions, review all of the available photoinitiating systems and deliver a thorough description of the encountered mechanisms. A large amount of experimental and theoretical data has been collected herein. This book allows the reader to gain a clear understanding by providing a general discussion of the photochemistry and chemistry involved. The most recent and exciting developments, as well as the promising prospects for new applications, are outlined.Zusammenfassung: Intro -- Photoinitiators for Polymer Synthesis -- Contents -- Abbreviations -- Introduction -- Part I Basic Principles and Applications of Photopolymerization Reactions -- 1 Photopolymerization and Photo-Cross-Linking -- References -- 2 Light Sources -- 2.1 Electromagnetic Radiation -- 2.2 Characteristics of a Light Source -- 2.3 Conventional and Unconventional Light Sources -- 2.3.1 Xenon Lamp -- 2.3.2 Mercury Arc Lamp -- 2.3.3 Doped Lamps -- 2.3.4 Microwave Lamps -- 2.3.5 Excimer Lamps -- 2.3.6 Light-Emitting Diodes (LEDs) -- 2.3.7 Pulsed Light Sources -- 2.3.8 Laser Sources -- 2.3.9 Sun -- 2.3.10 Household Lamps -- 2.3.11 UV Plasma Source -- References -- 3 Experimental Devices and Examples of Applications -- 3.1 UV Curing Area: Coatings, Inks, Varnishes, Paints, and Adhesives -- 3.1.1 Equipment -- 3.1.2 End Uses -- 3.1.3 Coating Properties -- 3.2 Conventional Printing Plates -- 3.3 Manufacture of Objects and Composites -- 3.4 Stereolithography -- 3.5 Applications in Microelectronics -- 3.6 Laser Direct Imaging -- 3.7 Computer-to-Plate Technology -- 3.8 Holography -- 3.9 Optics -- 3.10 Medical Applications -- 3.11 Fabrication of Nano-Objects through a Two-Photon Absorption Polymerization -- 3.12 Photopolymerization Using Near-Field Optical Techniques -- 3.13 Search for New Properties and New End Uses -- 3.14 Photopolymerization and Nanotechnology -- 3.15 Search for a Green Chemistry -- References -- 4 Photopolymerization Reactions -- 4.1 Encountered Reactions, Media, and Experimental Conditions -- 4.2 Typical Characteristics of Selected Photopolymerization Reactions -- 4.2.1 Film Radical Photopolymerization of Acrylates -- 4.2.2 Film Cationic Photopolymerization -- 4.2.3 Thiol-ene Photopolymerization -- 4.2.4 Photopolymerization of Water-Borne Light Curable Systems -- 4.2.5 Photopolymerization of Powder Formulations.PPN: PPN: 809983265Package identifier: Produktsigel: ZDB-26-MYL | ZDB-30-PAD | ZDB-30-PQE

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