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This book comprehensively reviews the advances of hydrosilylation processes since 1990. It is the first book dedicated to hydrosilylation in 15 years and conveys a complete literature review of the most important developments in the field to date.
For fifty years, Hydrosilylation has been one of the most fundamental and elegant methods for the laboratory and industrial synthesis of organosilicon and silicon related compounds. Despite the intensive research and continued interest generated by organosilicon compounds, no comprehensive book incorporating its various aspects has been published this century.
The aim of this book is to comprehensively review the advances of hydrosilylation processes since 1990. The survey of the literature published over the last two decades enables the authors to discuss the most recent aspects of hydrosilylation advances (catalytic and synthetic) and to elucidate the reaction mechanism for the given catalyst used and the reaction utilization. New catalytic pathways under optimum conditions necessary for efficient synthesis of organosilicon compounds are presented. This monograph shows the extensive development in the application of hydrosilylation in organic and asymmetric syntheses and in polymer and material science.
The first book dedicated to the field of hydrosilylation in 15 years It will convey a complete literature review of the most important mechanistic, structural, and synthetic developments in the field to date The publication of the book will mark the 60th anniversary of the first reported hydrosilylation reaction and the 50th anniversary of the Spier Catalyst discovery Includes supplementary material: sn.pub/extras
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For fifty years, Hydrosilylation has been one of the most fundamental and elegant methods for the laboratory and industrial synthesis of organosilicon and silicon related compounds. Despite the intensive research and continued interest generated by organosilicon compounds, no comprehensive book incorporating the various aspects of Hydrosilylation has been published this century.
The aim of Hydrosilylation is to comprehensively review the advances of hydrosilylation processes since 1990. The survey of the literature published over the last two decades, including ca 2000 articles, patents and reviews, enables the authors to discuss the most recent aspects of hydrosilylation advances, (i.e. catalytic and synthetic) as well as to elucidate the reaction mechanism for the given catalyst used and the reaction utilization. New catalytic pathways under optimum conditions necessary for efficient synthesis of organosilicon compounds are presented. The key point of this monograph is to show extensive development in the application of hydrosilylation in organic and asymmetric syntheses as well as in polymer and material science.
Hydrosilylation is the definitive monograph in the area written for reseachers and industrial chemists involved in silicon chemistry, organic synthetic chemists with an interest in silicones, silane coupling agents and hybrid inorganic-organic materials; as well as researchers working on organosilicon reagents in organic and polymer chemistry. Finally, this book provides an excellent review of hydrosilylation processes and their products thus making this book a useful handbook for post-graduate students working in catalysis, organometallic chemistry as well as synthesis and the technology of fine chemicals.
Contenu
Hydrosilylation of CarbonCarbon Multiple Bonds in Synthesis of Molecular Organosilicon Compounds.- Hydrosilylation of Alkenes and Their Derivatives.- Hydrosilylation of Alkynes and Their Derivatives.- Hydrosilylation of CarbonCarbon Multiple Bonds in Organic Synthesis.- Asymmetric Hydrosilylation of Prochiral Alkenes and Their Derivatives.- Hydrosilylation of CarbonCarbon Multiple Bonds in Polymer Chemistry and Materials Science.- Functionalisation and Cross-Linking of Organosilicon Polymers.- Hydrosilylation Polymerisation.- Functionalised (Poly)silsesquioxanes and Silicon-Containing Dendrimers.- Organosilicon Organic Hybrid Polymers and Materials.- Chemo- and Enantio-Selective Hydrosilylation of Unsaturated CarbonHeteroatom Bonds.- Hydrosilylation of Unsaturated CarbonHeteroatom Bonds.- Asymmetric Hydrosilylation of Unsaturated CarbonHeteroatom Bonds.
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