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The know-how about reactivity, reaction mechanisms, thermodynamics and other basics in physical organic chemistry is the key for successful organic reactions. This textbook presents comprehensively this knowledge to the student and to the researcher, too. Includes Q&As.
"Covers all the important topics-Alkanes, Alkenes, Alkynes, Dienes, Arenes, Cycloalkanes, Organometallic Compounds, Alcohols, Phenols, Ethers and Epoxides, Thioalcohols and Thioethers, Aldehydes and Ketones, Carboxylic Acids, Substituted Acids and Polycarboxylic Acids, Nitro Compounds, Amino Compounds, Diazonium salts, Spectroscopy, Heterocyclic compounds, Amino acids and proteins, Dyes and drugs, Polymers, etc. Explanation of concepts though numerous stepwise solved and ample unsolved problems for practice."--Back cover.
Organic Chemistry: A mechanistic approach combines a focus on core topics and themes with a mechanistic approach to the explanation of the reactions it describes, making it ideal for those looking for a solid understanding of the central themes of organic chemistry.
Chemical nomenclature is used to identify a chemical species by means of written or spoken words and enables a common language for communication amongst chemists. Nomenclature for chemical compounds additionally contains an explicit or implied relationship to the structure of the compound, in order that the reader or listener can deduce the structure from the name. This purpose requires a system of principles and rules, the application of which gives rise to a systematic nomenclature. Of course, a wide range of traditional names, semisystematic or trivial, are also in use for a core group of common compounds. Detailing the latest rules and international practice, this new volume can be considered a guide to the essential organic chemical nomenclature, commonly described as the "Blue Book". An invaluable source of information for organic chemists everywhere and the definitive guide for scientists working in academia or industry, for scientific publishers of books, journals and databases, and for organisations requiring internationally approved nomenclature in a legal or regulatory environment.
The first edition of this book achieved considerable success due to its ease of use and practical approach, and to the clear writing style of the authors. The preparation of organic compounds is still central to many disciplines, from the most applied to the highly academic and, more tan ever is not limited to chemists. With an emphasis on the most up-to-date techniques commonly used in organic syntheses, this book draws on the extensive experience of the authors and their association with some of the world's mleading laboratories of synthetic organic chemistry. In this new edition, all the figures have been re-drawn to bring them up to the highest possible standard, and the text has been revised to bring it up to date. Written primarily for postgraduate, advanced undergraduate and industrial organic chemists, particularly those involved in pharmaceutical, agrochemical and other areas of fine chemical research, the book is also a source of reference for biochemists, biologists, genetic engineers, material scientists and polymer researchers.
Organic Chemistry: Structure, Mechanism, Synthesis, Second Edition, provides basic principles of this fascinating and challenging science, which lies at the interface of physical and biological sciences. Offering accessible language and engaging examples and illustrations, this valuable introduction for the in-depth chemistry course engages students and gives future and new scientists a new approach to understanding, rather than merely memorizing the key concepts underpinning this fundamental area. The book builds in a logical way from chemical bonding to resulting molecular structures, to the corresponding physical, chemical and biological properties of those molecules. The book explores how molecular structure determines reaction mechanisms, from the smallest to the largest molecules—which in turn determine strategies for organic synthesis. The book then describes the synthetic principles which extend to every aspect of synthesis, from drug design to the methods cells employ to synthesize the molecules of which they are made. These relationships form a continuous narrative throughout the book, in which principles logically evolve from one to the next, from the simplest to the most complex examples, with abundant connections between the theory and applications. Featuring in-book solutions and instructor PowerPoint slides, this Second Edition offers an updated and improved option for students in the two-semester course and for scientists who require a high quality introduction or refresher in the subject. Offers improvements for the two-semester course sequence and valuable updates including two new chapters on lipids and nucleic acids Features biochemistry and biological examples highlighted throughout the book, making the information relevant and engaging to readers of all backgrounds and interests Includes a valuable and highly-praised chapter on organometallic chemistry not found in other standard references
Like its previous five editions, this book is ideally suited for use in a sophomore-level laboratory course in organic chemistry.Key Features of This Edition:Provides information on safety, glassware, lab cleanup, collection and disposal of waste, preparation of the laboratory notebook, and use of the chemical literature.Provides clear instructions on how to perform the procedures that are used.Appeals to the esthetic dimension by offering experiments in a variety of scales -from micro scale to semi-micro and to 5- and 10-gram scale.Includes descriptions of the interpretation of IR, UV/Vis, NMR and mass spectra.Gives procedures for the isolation of organic compounds from familiar materials such as nutmeg, cloves, citrus rind, tea, cola, NoDoz, aspirin, ibuprofen, milk and gallstones.Gives "recipes" for the preparation of organic compounds that illustrate many of the reactions that are discussed in the lecture part of the course.Gives procedures for the preparation of compounds with interesting properties: compounds that produce light, change color when heated, have different colors in different solvents, or turn blue in the sun.Includes the famous "bootstrap synthesis": the preparation of two molecules from one.Includes procedures for the preparation of 7 different compounds from vanillin.