PART I. PHOTOINITIATORS AND POLYMERIZATION REACTIONS: BACKGROUNDS
Photopolymerization Reactions (Reactions, Monomers, Light Sources)
Photoinitiators and Photoinitiating Systems (Absorption, Excited State Processes, Characteristics, Properties)
PART II. PHOTOINITIATORS: STRUCTURES, EXCITED STATE PROCESSES, REACTIVITY AND EFFICIENCY
Cleavable Radical Photoinitiators
Two-Component Radical Photoinitiators
Cationic Photoinitiators
Anionic Photoinitiators, Photoacids and Photobases
Reactivity of Initiating Radicals
Photoinitiators and Experimental Conditions (Media, Atmosphere, Light Sources)
Photoinitiators: Reactivity and Efficiency in Various Media
PART II. HIGH PERFORMANCE PHOTOINITIATORS AND PHOTOINITIATING SYSTEMS: ACHIEVEMENTS, CHALLENGES, OPPORTUNITIES AND TRENDS
Mechanistic Approach for Novel Architectures of Photoinitiators (Design, Substituent and Structure Effects, Multifunctional PIs)
Multi-Component Radical Photoinitiating Systems
Photoinitiators in Free Radical Promoted Cationic Photopolymerization
Photoinitiators for Novel Specific and Improved Properties (MacroPIs, Water Soluble PIs, Two-Photon PIs, PI Catalysts, PIs and Oxygen, Safe PIs, Biosourced PIs)
Industrial Photoinitiators
PART IV. PHOTOINITIATORS FOR SPECIFIC REACTIONS AND CURRENT OR EMERGING INNOVATIVE APPLICATIONS
Photoinitiators and Light Sources: Novel Developments (Adaptation to LEDs, Sun, Pulsed Sources, NIR Lights)
Photoinitiators in Controlled Polymerization Reactions
Photoinitiators in Specific Polymerization Processes (Thiol-Ene, IPN, Redox, PISA, CUAAC, Grafting, Ionic Liquids, Hydrogels, Incorporation of Nanoparticles)
Photoinitiators for the Polymerization of Thick Films
Photoinitiators in Industrial Applications (Coatings, Graphic Arts, 3D Printing, Medical, Optics, Electronics)
