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Filling a gap in the scientific literature, Room Temperature Organic Synthesis is unique in its authoritative, thorough, and applied coverage of a wide variety of "green" organic synthetic methodologies. The book describes practical, feasible protocols for room temperature reactions to produce carbon-carbon and carbon-heteroatom bond formations including aliphatic, aromatic, alicyclic, heterocycles, and more. Consistently organized for easy access, each selected reaction is discussed in a very compact and structured manner including: reaction type, reaction condition, reaction strategy, catalyst, keywords, general reaction scheme, mechanism (in selected cases), representative entries, experimental procedure, characterization data of representative entries, and references. This book will be a valuable resource for synthetic organic, natural products, medicinal, and biochemists as well as those working in the pharmaceutical and agrochemical industry. - Includes more than 300 protocols for a green approach to organic synthesis - Provides specific detail about experimental conditions - Increases efficiency in the laboratory by eliminating time-consuming literature searches
Mechanochemical Organic Synthesis is a comprehensive reference that not only synthesizes the current literature but also offers practical protocols that industrial and academic scientists can immediately put to use in their daily work. Increasing interest in green chemistry has led to the development of numerous environmentally-friendly methodologies for the synthesis of organic molecules of interest. Amongst the green methodologies drawing attention, mechanochemistry is emerging as a promising method to circumvent the use of toxic solvents and reagents as well as to increase energy efficiency. The development of synthetic strategies that require less, or the minimal, amount of energy to carry out a specific reaction with optimum productivity is of vital importance for large-scale industrial production. Experimental procedures at room temperature are the mildest reaction conditions (essentially required for many temperature-sensitive organic substrates as a key step in multi-step sequence reactions) and are the core of mechanochemical organic synthesis. This green synthetic method is now emerging in a very progressive manner and until now, there is no book that reviews the recent developments in this area. - Features cutting-edge research in the field of mechanochemical organic synthesis for more sustainable reactions - Integrates advances in green chemistry research into industrial applications and process development - Focuses on designing techniques in organic synthesis directed toward mild reaction conditions - Includes global coverage of mechanochemical synthetic protocols for the generation of organic compounds
Explaining methods for carrying out chemical syntheses without the use of catalysts, this book shows how avoiding catalysts during synthesis can mean less use of toxic chemicals, environmentally damaging chemicals, or endangered elements, and lower costs.
In this second edition of a best-selling handbook all the chapters have been completely revised and updated, while four completely new chapters have been added. In order to meet the needs of the practitioner, emphasis is placed on describing precisely the technology and know-how involved. Adopting a didactic and comprehensible approach, the book guides the reader through theory and applications, thus ensuring its warm welcome among the scientific community. An excellent, essential and exhaustive overview.
Highlighting sustainable catalytic processes in synthetic organic chemistry and industry, this useful guide places special emphasis on catalytic reactions carried out at room temperature. It describes the fundamentals, summarizes key advances, and covers applications in industrial processes in the field of energy generation from renewables, food science, and pollution control. Throughout, the latest research from various disciplines is combined, such as homogeneous and heterogeneous catalysis, biocatalysis, and photocatalysis. The book concludes with a chapter on future trends and energy challenges for the latter half of the 21st century. With its multidisciplinary approach this is an essential reference for academic and industrial researchers in catalysis science aiming to design more sustainable and energy-efficient processes.
Heterocycles are ubiquitously present in nature and occupy a unique place in organic chemistry as they are part of the DNA and haemoglobin that make life possible. The Chemistry of Heterocycles covers an introduction to the topic, followed by a chapter on the nomenclature of all classes of isolated, fused and polycyclic heterocycles. The third chapter delineates the highly strained three membered N,O and S containing aromatic and non-aromatic heterocycles with one and more than one similar and dissimilar heteroatom. The four-membered heterocycles are abundantly present in various natural and synthetic products of pharmacological importance. This chapter describes the natural abundance, synthesis, chemical reactivity, structural features and their medicinal importance. This class of compounds are present as sub-structures in penicillin and cytotoxic Taxol. Lastly, a chapter on the natural abundance, synthesis, chemical reactivity and pharmacological importance of 5-membered heterocycles with N,O,S heteroatom is covered. The chemistry of heterocycles with mixed heteroatom such as, N-S, N-O, N-S etc. is also described. - Gives in-depth, clear information about various systems of nomenclature along with widely acceptable IUPAC system for naming various classes of heterocycles - Provides complete information about natural occurrences, synthesis, chemical reactivity, pharmacological importance of heterocycles and their application in material science - Highly relevant for graduate students and researchers, providing updated information about various isolated and fused N,O and,S containing heterocycles
The explosive growth of organoselenium chemistry over the past 12 years can be attributed to the specific properties of organic selenium molecules, which fit the requirements of modern organic synthesis. Most of them are well adapted to chemo-, regio- and stereo-selectivities. In addition, they can be used in mild experimental conditions which are compatible with the stability of both substrates and products in the preparation of unsaturated and functional complex molecules, especially in the field of natural products. This book describes and illustrates different synthetic routes to organic structures using selenium reagents or intermediates. The approach emphasizes that such transformations are simple, efficient and often carried out at room temperature. The scope ranges from the preparation of both inorganic and organic selenium reagents, through descriptions of structure, toxicity, biological aspects and nuclear magnetic resonance, to applications of specific selenium compounds in various syntheses including natural products and biologically active compounds.
Continuing the tradition of providing significant and interesting procedures, Organic Syntheses, Collective Volume XII is a compilation of revised editions of Annual Volumes 85 through 89. The contents of this volume are organized by primarily by reaction type, with the precise classification made according to the bias of the editor, who attempted to ascertain the primary purpose or utility of the procedure.
A guide to the fascinating application of CO2 as a building block in organic synthesis This important book explores modern organic synthesis’ use of the cheap, non-toxic and abundant chemical CO2as an attractive C1 building block. With contributions from an international panel of experts, CO2 as a Building Block in Organic Synthesis offers a review of the most important reactions which use CO2 as a building block in organic synthesis. The contributors examine a wide-range of CO2 reactions including methylation reactions, CH bond functionalization, carboxylation, cyclic carbonate synthesis, multicomponent reactions, and many more. The book reviews the most recent developments in the field and also: Presents the most important reactions like CH-bond functionalization, carboxylation, carbonate synthesis and many more Contains contributions from an international panel of experts Offers a comprehensive resource for academics and professionals in the field Written for organic chemists, chemists working with or on organometallics, catalytic chemists, pharmaceutical chemists, and chemists in industry, CO2 as Building Block in Organic Synthesis contains an analysis of the most important reactions which use CO2 as an effective building block in organic synthesis.
Visible Light-Driven Organic Synthesis covers the recent cutting-edge investigations in the field of visible light– driven organic synthesis in a single comprehensive volume. It provides information on rigorously selected reaction schemes and covers new reactions and new methods under visible light photocatalysis. It enlists more than 100 important synthetic strategies/methodologies with particular emphasis on useful reactions for organic synthesis under the mild reaction conditions reported in recent times involving carbon–carbon (C–C) and carbon–heteroatom bond–forming reactions, resulting in a wide spectrum of chemical compounds, providing an outstanding source of information concerning industrial applications. The chapters are classified based on various photocatalysts that have found direct applications in organic synthesis by carrying out different kinds of organic reactions. Each chapter is dedicated to a particular photocatalyst, and each selected reaction is dealt with in a compact manner through point-wise discussion under distinct subheadings covering the reaction type, reaction conditions, bond-forming information, reaction strategy involved, general reaction scheme, examples of representative entries with chemical structures and physical properties, a suggested plausible mechanism, critical views, and literature. In addition, visible light–mediated self-sensitized organic transformations that took place without any external photocatalysts have also been covered. This book is immensely helpful to chemistry students, teachers, researchers, academicians, and chemical/ agrochemical industry people to access the latest information and advances on visible light–driven organic synthesis developments. - Includes more than 100 visible light–driven protocols in organic synthesis having unique features - Provides specific detail about experimental conditions and mechanistic aspects - Increases efficiency in the laboratory by eliminating time-consuming literature searches and acts as a ready practical reference for reproducing any reactions of choice - Presents each Chapter containing a section on critical views that highlights the merits. Each chapter presents a section on critical views, highlighting the merits and demerits of the protocol, comparing it with previous or other available methods, and describing the green and sustainability aspects of the technique