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This work provides a full coverage of organosilicon chemistry, with pertinent references to more detailed treatment given at appropriate points in the book.
Over the last three decades the importance of organosiliconchemistry has greatly increased because it has opened a number ofnew synthetic strategies. Silicon reagents are usually low-cost,versatile and allow a wide range of reactions. This is the firstHandbook to compile essential Silicon containing reagents and makesuse of the leading reagent database e-EROS. Another hotvolume in the series Handbooks of Reagents for OrganicSynthesis, this is a must-have resource for all syntheticchemists working in drug development and medicinal chemistry. For the selection the Editor focussed on three key syntheticapproaches with the greatest impact: 1. Use of silicon as a 'temporary tether' by unifying a reactivepair of functional groups and taking advantage of theirtemplate-biased intramolecular cyclization. 2. The specific use of the silane functionality as a heterot-butyl group, often colloquially referred to as the use ofsilicon as a 'fat proton'. 3. The use of the Brook rearrangement as an 'anion relaystratagem'. A new feature in this Handbook is the reagent finder, analphabetically organized lookup table arranged by organicfunctionality and specific structure of the silicon atom to whichit is bound.
Silicon in Organic Synthesis provides an introduction to the organic chemistry of silicon. This book places particular emphasis on the concept of silicon as a "ferryman, mediating the transformation of one wholly organic molecule into another. The book begins by reviewing the discovery and development of organosilicon compounds. This is followed by separate chapters on the physical properties of organosilicon compounds; the preparation of a-metallated organosilanes, which play a key role in preparative organosilicon chemistry; migration/rearrangement reactions of silicon; the preparation and chemistry of vinylsilanes, allylsilanes, arylsilanes, and organosilyl metallic compounds. Subsequent chapters cover the synthesis of compounds such as alkene, alkynylsilanes, allenylsilanes, silylketenes, alkyl silyl ethers, acyloxysilanes, and silyl enol ethers. This book aims to serve as a timely introduction to organic chemistry for students and practitioners of synthetic organic chemistry, as well as provide a source of useful information and possibly of new ideas to those already experienced in the area.
Over the last three decades the importance of organosilicon chemistry has greatly increased because it has opened a number of new synthetic strategies. Silicon reagents are usually low-cost, versatile and allow a wide range of reactions. This is the first Handbook to compile essential Silicon containing reagents and makes use of the leading reagent database e-EROS. Another hot volume in the series Handbooks of Reagents for Organic Synthesis, this is a must-have resource for all synthetic chemists working in drug development and medicinal chemistry. For the selection the Editor focussed on three key synthetic approaches with the greatest impact: 1. Use of silicon as a 'temporary tether' by unifying a reactive pair of functional groups and taking advantage of their template-biased intramolecular cyclization. 2. The specific use of the silane functionality as a hetero t-butyl group, often colloquially referred to as the use of silicon as a 'fat proton'. 3. The use of the Brook rearrangement as an 'anion relay stratagem'. A new feature in this Handbook is the reagent finder, an alphabetically organized lookup table arranged by organic functionality and specific structure of the silicon atom to which it is bound.
A comprehensive, up-to-date reference to synthetic applications of organosilicon chemistry Organic, organometallic, and polymer chemistry as well as materials science all utilize silicon in various forms, yet there is little cross-fertilization of ideas and applications among the disciplines. This book presents a much-needed overview of silicon chemistry, allowing fundamental and applied scientists to take full advantage of progress made within and outside their primary fields of expertise. With an emphasis on the preparation and reactivity of silicon compounds in organic, organometallic, and polymer chemistry, the author examines a broad range of useful topics-from mechanisms to syntheses of and syntheses using different organofunctional silanes. Numerous schemes as well as up-to-date examples from academia and industry will help readers to solve current synthetic problems and explore ideas for future research. Clear, concise coverage includes: * The mechanistic basis for the development of new silicon-based reactions * Formation and cleavage of silane reagents and functional siliconheteroatom compounds * Silicones, silica, polysilanes, and other silicon-containing polymers * Properties of molecules containing silicon, including bioactivity * Methods for the preparation of Si-C compounds * Silicon in organic synthesis * An extensive functional group index for easy access to functional group transformations
Considering the limited resources of our planet, earth-abundant elements will have to be explored increasingly in the future. This book highlights the uses of the most earth-abundant elements in catalysis and will be of interest to graduates, academic researchers and practitioners in catalysis.
Efficient Methods for Preparing Silicon Compounds is a unique and valuable handbook for chemists and students involved in advanced studies of preparative chemistry in academia and industry. Organized by the various coordination numbers (from two to six) of the central silicon atom of the reported compounds, this book provides researchers with a handy and immediate reference for any compound or properties needed in the area. Edited by a renowned expert in the field, each chapter explores a different type of compound, thoroughly illustrated with useful schemes and supplemented by additional references. Knowledgeable contributors report on a broad range of compounds on which they have published and which are already used on a broad scale or have the potential to be used in the very near future to develop a new field of research or application in silicon chemistry. - Includes contributions and edits from leading experts in the field - Includes detailed chemical schemes and useful references for each preparative method - Organized by the coordination numbers of the central silicon atom for each compound for easy navigation - Serves as a go-to primer for researchers in novel compositions of silicon matter
At last, the long anticipated second edition of the highly successful Encyclopedia of Reagents for Organic Synthesis (EROS) is publishing in print in March 2009. With its wealth of valuable information, excellent editorial leadership and methodical classification, EROS has become the authoritative reference source on reagents and catalysts. This makes EROS vital reading for everybody working in organic synthesis. It has wide appeal, with relevance not only to Organic Chemists, but also to Inorganic, Physical and Analytical Chemists, Materials Scientists, Chemical Engineers, Biochemists, Medicinal and Pharmaceutical Chemists and Pharmacologists. In short, it is an essential product for all academic and industrial chemistry laboratories and libraries. COMPREHENSIVE With its 50,000 reactions and 4,111 reagents, Encyclopedia of Reagents for Organic Synthesis offers readers a substantial wealth of information. Each entry contains, where available: CAS numbers InChI and InChIKeys Alternative names and structures Details on availability and physical properties, including solubility, form in which it’s supplied, purification methods, form obtainable in purification and preparation methods Extensive reviews Examples of transformations for each reagent with reaction schemes Comparison of one agent’s specific properties with those of others capable of equivalent chemistry, together with reaction schemes Stereo-, regio-, and enantio-control properties Required precautions for working with the reagent The various uses and characteristics of each reagent with illustrative examples Related literature METHODICAL Encyclopedia of Reagents for Organic Synthesis has been designed and developed by chemists for chemists. It makes it as easy as possible for users to find the most suitable reagents for performing particular reactions. Reagents are arranged in A to Z format while each reagent entry is presented in a uniform style so that the user is provided with a recognizable format and structure. New in the second edition of Encyclopedia of Reagents for Organic Synthesis: Over 1,000 new reagents Over 620 updated reagents retaining the original text and references whilst adding additional up-to-date information New types of reagents and catalysts In addition to CAS numbers each article now also includes InChI and InChIKeys A standard citation style in the reference list for each reagent An author index
Current Trends in Organic Synthesis is a collection of papers presented at the Fourth International Conference on Organic Synthesis, held in Tokyo, Japan on August 22-27, 1982. This conference brings together the significant achievements in the diversified frontier fields of organic synthesis. This book is composed of 33 chapters. The first chapters focus on the synthesis of biologically active natural compounds, including metabolites of arachidonic acid, erythromycin A, verrucarins, steroids, anthracyclines, terpenes, yeast alanine t-RNA, beta-lactam antibiotics, and palitoxin. Other chapters deal with the central problems in stereoselective and chiral synthesis, as well as processes of high degree of stereochemical control and asymmetric induction. These chapters also describe chiral pool synthesis by means of carbohydrate precursors. This book also examines the methodologies in organic synthesis using reagents with boron, aluminum, transition metals, silicon, phosphorus, and sulfur. The remaining chapters are devoted to reactions involving radical initiated ring closure, small ring hydrogenolysis, annulene synthesis, vicarious nucleophilic substitution of aromatic hydrogen, and dichlorine monoxide mediated powerful chlorination. This book is of value to organic chemists and allied scientists.