This book elaborates on the synthesis of versatile precursors and their applications in organic synthesis through a systematic approach. It shows that understanding the chemical properties of different types of versatile building blocks is essential for the successful execution of organic synthesis. The text also discusses how a particular type of precursor is used in the preparation of different types of simple and complex organic compounds, depending on reaction conditions and other substrates.
Guanidines, amidines and phosphazenes have been attracting attention in organic synthesis due to their potential functionality resulting from their extremely strong basicity. They are also promising catalysts because of their potential for easy molecular modification, possible recyclability, and reduced or zero toxicity. Importantly, these molecules can be derived as natural products – valuable as scientists move towards “sustainable chemistry”, where reagents and catalysts are derived from biomaterial sources. Superbases for Organic Synthesis is an essential guide to these important molecules for preparative organic synthesis. Topics covered include the following aspects: an introduction to organosuperbases physicochemical properties of organic superbases amidines and guanidines in organic synthesis phosphazene: preparation, reaction and catalytic role polymer-supported organosuperbases application of organosuperbases to total synthesis related organocatalysts: proton sponges and urea derivatives amidines and guanidines in natural products and medicines Superbases for Organic Synthesis is a comprehensive, authoritative and up-to-date guide to these important reagents for organic chemists, drug discovery researchers and those interested in the chemistry of natural products.
Provides a unique summary of important catalytic reactions in the presence of silicon A must-have for all synthetic chemists, this book summarizes all of the important developments in the application of organosilicon compounds in organic synthesis and catalysis. Edited by two world leaders in the field, it describes different approaches and covers a broad range of reactions, e.g. catalytic generation of silicon nucleophiles, Si-H Bond activation, C-H bond silylation, silicon-based cross-coupling reactions, and hydrosilylation in the presence of earth-abundant metals. In addition to the topics covered above, Organosilicon Chemistry: Novel Approaches and Reactions features chapters that look at Lewis base activation of silicon Lewis acids, silylenes as ligands in catalysis, and chiral silicon molecules. -The first book about this topic in decades, covering a broad range of reactions -Covers new approaches and novel catalyst systems that have been developed in recent years -Written by well-known, international experts in the areas of organometallic silicon chemistry and organosilicon cross-coupling reactions Organosilicon Chemistry: Novel Approaches and Reactions is an indispensable source of information for synthetic chemists in academia and industry, working in the field of organic synthesis, catalysis, and main-group chemistry.
The current volume continues the tradition of the Organic Syntheses series, providing carefully checked and edited experimental procedures that describe important synthetic methods, transformations, reagents, and synthetic building blocks or intermediates with demonstrated utility in organic synthesis. These significant and interesting procedures should prove worthwhile to many synthetic chemists working in increasingly diverse areas. A trusted guide for professionals in organic and medicinal chemistry in academia, government, and industries, including pharmaceuticals, fine chemicals, agrochemicals, and biotechnological products.
Most syntheses in the chemical research laboratory fail and usually require several attempts before proceeding satisfactorily. Failed syntheses are not only discouraging and frustrating, but also cost a lot of time and money. Many failures may, however, be avoided by understanding the structure-reactivity relationship of organic compounds. This textbook highlights the competing processes and limitations of the most important reactions used in organic synthesis. By allowing chemists to quickly recognize potential problems this book will help to improve their efficiency and success-rate. A must for every graduate student but also for every chemist in industry and academia. Contents: 1 Organic Synthesis: General Remarks 2 Stereoelectronic Effects and Reactivity 3 The Stability of Organic Compounds 4 Aliphatic Nucleophilic Substitutions: Problematic Electrophiles 5 The Alkylation of Carbanions 6 The Alkylation of Heteroatoms 7 The Acylation of Heteroatoms 8 Palladium-Catalyzed C-C Bond Formation 9 Cyclizations 10 Monofunctionalization of Symmetric Difunctional Substrates
With authors who are both accomplished researchers and educators, Vollhardt and Schore’s Organic Chemistry is proven effective for making contemporary organic chemistry accessible, introducing cutting-edge research in a fresh, student-friendly way. A wealth of unique study tools help students organize and understand the substantial information presented in this course. And in the sixth edition, the themes of understanding reactivity, mechanisms, and synthetic analysis to apply chemical concepts to realistic situations has been strengthened. New applications of organic chemistry in the life sciences, industrial practices, green chemistry, and environmental monitoring and clean-up are incorporated. This edition includes more than 100 new or substantially revised problems, including new problems on synthesis and green chemistry, and new “challenging” problems.
Design, Characterization and Fabrication of Polymer Scaffolds for Tissue Engineering covers core elements of scaffold design, from properties and characterization of polymeric scaffolds to fabrication techniques and the structure-property relationship. Particular attention is given to the cell-scaffold interaction at the molecular level, helping the reader understand and adapt scaffold design to improve biocompatibility and function. The book goes on to discuss a range of tissue engineering applications for polymeric scaffolds, including bone, nerve, cardiac and fibroblast tissue engineering. Design, Characterization and Fabrication of Polymer Scaffolds for Tissue Engineering is an important, interdisciplinary work of relevance to materials scientists, polymer scientists, biomedical engineers and those working regenerative medicine. - Helps the reader determine the most appropriate polymer for scaffold design by characterization, properties and structure-property relationship - Discusses material-cell interactions at the molecular level, aiding in determining suitability - Covers core elements of scaffold design, including fabrication techniques
Fiesers' Reagents for Organic Synthesis provides an up-to-date, A-to-Z listing of reagents cited in synthetic literature. • Covers, in volume 28, chemical literature and methodologies from July 2011 - December 2012 • Features entries with concise descriptions, illustrations of chemical reactions, selected examples of applications • Includes author indexes and subject indexes • Offers practical information on making/buying reagent, its usefulness, where to find complete details
Edited by the leading expert on the topic, this is the first book to present the latest developments in this exciting field. Alongside the theoretical aspects, the top contributors provide practical protocols to give readers additional important information otherwise unavailable. A must for every synthetic chemist in academia and industry.
This title provides a forum for investigators to discuss their approach to the science and art of organic synthesis in a unique way. There are stories that vividly demonstrate the power of the human endeavour known as organic synthesis and the creativity and tenacity of its practitioners.
