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The Science of Synthesis Editorial Board, together with the volume editors and authors, is constantly reviewing the whole field of synthetic organic chemistry as presented in Science of Synthesis and evaluating significant developments in synthetic methodology. Four annual volumes updating content across all categories ensure that you always have access to state-of-the-art synthetic methodology.
The Science of Synthesis Editorial Board, together with the volume editors and authors, is constantly reviewing the whole field of synthetic organic chemistry as presented in Science of Synthesis and evaluating significant developments in synthetic methodology. Four annual volumes updating content across all categories ensure that you always have access to state-of-the-art synthetic methodology.
Asymmetric Organocatalysis 2 from the Science of Synthesis series gives an authoritative, broad overview of the field, compiled by 3 8 experts, as well as a critical presentation of the best organocatalytic and related methodologies available today for practical as ymmetric synthesis. It provides alternative, greener syntheses with simple and easily used catalysts helping avoid the use of expens ive and/or toxic metals. The reference work covers all the catalysts and reactions within the activation modes Brønsted base catalys is and Brønsted acid catalysis. Typical or general experimental procedures as well as mechanistic, technical and theoretical aspects are included, allowing the reader to clearly see how simple, clean and efficient this chemistry is. // The content of this e-book w as originally published in December 2011.
The three Science of Synthesis volumes on "Biocatalysis in Organic Synthesis" present a broad contemporary overview on the state-of-the-art in enzymatic methods for asymmetric synthesis suitable for academics and industrial researchers working in the field of organic synthesis. The goal is to start a new wave of enthusiasm for biocatalysis in the broader community and to give an overview of the field. "Biocatalysis in Organic Synthesis" offers critical reviews of organic transformations by experts, including experimental procedures. The organization is based on the type of reaction performed under biocatalysis. Volume 2 covers reactions involving the formation of C-C bonds. Addition of carbon nucleophiles at C-O and C-N double bonds are reviewed, as are methods for the formation of C-C bonds at arenes and additions to C-C double bonds. Other chapters present transamination and reductive amination reactions, reduction of carbonyl compounds, and the uses of epoxides in biocatalysis.
The reference work "Science of Synthesis: Catalytic Transformations via C-H Activation" covers the state of the art in C-H activation chemistry. Experts in the field present the best synthetic methods including typical or general experimental procedures. As such, this two volume set can serve as both a basis for the practical application of the techniques discussed, and as an educational resource to lay the foundations for future research. Volume 2 concerns the formation of C-C bonds by C-H activation of non-(het)arene substrates as well as C-H activation using special reagents or techniques. The formation of C-heteroatom bonds by predominantly arene C-H activation is also reviewed. For C-C bond formation, the material is subdivided into allylic, alkyl, and double C-H activation techniques, coupling using carbenes or radicals, and carbonylation or carboxylation processes.
The field of N-heterocyclic carbenes, whether in transition-metal catalysis or organocatalysis, is rapidly evolving towards applications, but is also still very active on the catalyst development front. Significant advances have been made over the past two decades and the development of these reactions has dramatically improved the efficiency of organic synthesis. N-Heterocyclic carbene based catalysts are now widely applied in the area of synthesis of both natural products and therapeutic agents. "Science of Synthesis: N-Heterocyclic Carbenes in Catalytic Organic Synthesis" presents the most commonly used and significant metal- or non-metal-catalyzed reactions for modern organic synthesis. The basic principles and current state-of-the-art of the methods are covered. Scope, limitations, and mechanism of these reactions are discussed and key experimental procedures are included. Typical examples of target synthesis are often provided to show the utility and inspire further applications.
Carbonyl and imino groups are two of the most integral functional groups employed in organic synthesis. Specific topics discussed: reduction, alkylation, alkenylation, and arylation of these groups, as well as asymmetric aldol, Mannich, and Morita-Bayliss-Hillman reactions. This volume is part of a 3-volume set: Science of Synthesis Stereoselective Synthesis Workbench Edition Further information about Stereoselective Synthesis (including sample pages and the table of contents)
The two volumes "Science of Synthesis: Multicomponent Reactions" critically review the state of the art of domino, sequential, and consecutive multicomponent reactions in what is a highly dynamic field. They serve as the basis for practical application to reach the goals of diversity-oriented synthesis, reaction design, and novel synthetic concepts. As is typical for the Science of Synthesis series, the reference work on multicomponent reactions presents the best synthetic methods as judged by experts in the field and includes typical and general experimental procedures. The volume "Reactions Involving an alpha,beta-Unsaturated Carbonyl Compound as Electrophilic Component" covers the following topics: Michael Additions Wittig Reactions Cycloadditions Reactions Involving an alpha,beta-Unsaturated Carbonyl Compound as Electrophilic Component with Electron-Deficient Alkynes as Electrophiles Reactions with Cycloaddition as the Key Step Boron-Mediated Multicomponent Reactions Silicon-Mediated Multicomponent Reactions Free-Radical Mediated Multicomponent Reactions Metal-Mediated Multicomponent Reactions
In Science of Synthesis: Cross Coupling and Heck-Type Reactions, expert authors present and discuss the best and most reliable methods currently available for the formation of new carbon-carbon and carbon-heteroatom bonds using these reactions, highlighted with representative experimental procedures. Together, the three volumes of Cross Coupling and Heck-Type Reactions provide an extensive overview of the current state of the art in this field of central importance in modern chemistry, and are an invaluable resource for the practicing synthetic organic chemist. This volume is focused on the formation of carbon-heteroatom bonds and carbon-carbon bonds of acidic C-H nucleophiles. The chapters are intended to provide the reader with a practical guide to the most efficient, reliable, and useful metal-catalyzed cross-coupling reactions that generate C-N, C-P, C-O, C-S, C-B, C-Si, C-CN, and C-F bonds, and C-C bonds adjacent to carbonyl functional groups. The most up-to-date and modern methods are included, including those that facilitate replacement of typically unreactive C-H bonds with carbon-heteroatom bonds. This volume is part of a 3-volume set: Cross Coupling and Heck-Type Reactions Workbench Edition General information about Science of Synthesis
The two-volume set on C-1 Building Blocks in Organic Synthesis critically reviews the state of the art of a wide variety of reactions by which one carbon atom is added to an organic molecule, forming a C-C bond. In spite of the numerous classic reactions of this kind, there has been enormous progress in recent years, especially for those reactions involving catalytic methods. Introduction of substituted methyl groups is a major challenge and only very recently the first catalysts have been discovered that enable the introduction of fluoromethyl groups in aromatics.