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This book marks a significantly different approach to the subject. It has been designed specifically to offer a simpler and less sophisticated treatment of organic reaction mechanisms than that to be found in the Guidebook. It is based on three underlying principles: that there are three types of reaction - substitution, addition and elimination; that there are three types of reagent - nucleophiles, electrophiles and radicals; and that there are two effects - electronic and steric - through which the behaviour of a particular atom or group can be influenced by the rest of the molecule of which it is a constituent part. A Primer to Mechanism in Organic Chemistry is an essential resource for first- and second-year chemistry undergraduates and particularly, though not exclusively, those not then proceeding to further chemical study. It is also a useful reference for sixth-form students.
Organic Reaction Mechanisms shows readers how to interpret the experimental data obtained from an organic reaction, and specifically how an organic reaction mechanism can be considered or rejected based on the analysis of the experimental evidence. Whilst examining a series of selected examples of mechanisms, the text focuses on real cases and discusses them in detail. The examples are arranged to elucidate key aspects of organic reaction mechanisms. The authors employ all the types of information that the authors of the original work considered useful and necessary, including spectroscopic data, kinetic and thermodynamic data, isotopic labelling and organic reactivity. The book makes an excellent primer for advanced undergraduates in chemistry who are preparing for exams and is also useful for graduate students and instructors.
Mechanisms of Organic Reactions is aimed at first and second year chemistry undergraduates. This authorative and up-to-date overview begins with a chapter in which modern terminology, definitions, and concepts of mechanisms and reactivity are introduced. The following four chapters are accounts of the mechanisms of four of the main classes of reactions of aliphatic compounds. However, rather than simply being presented with the mechanism, the reader is first given the experimental evidence, and then shown how this leads to the mechanistic deductions. With problems at the end of each chapter and a short bibliography this book will be invaluable to first and second year chemistry undergraduates.
Organic chemistry is a core part of the chemistry curricula, andadvanced levels texts often obscure the essential frameworkunderlying and uniting the vast numbers of reactions as a result ofthe high level of detail presented. The material in this book iscondensed into a manageable text of 350 pages and presented in aclear and logical fashion, focusing purely on the basics of thesubject without going through exhaustive detail or repetitiveexamples. The book aims to bridge the gap between undergraduateorganic chemistry textbooks and advanced level textbooks, beginningwith a basic introductory course and arranging the reactionmechanisms according to an ascending order of difficulty. As such,the author believes the book will be excellent primer for advancedpostgraduates Reaction Mechanisms in Organic Synthesis is written fromthe point of view of the synthetic organic chemist, enablingstudents and researchers to understand and expand on reactionscovered in foundation courses, and to apply them in a practicalcontext by designing syntheses. As a further aid to the practicalresearch student, the content is organized according to theconditions under which a reaction is executed rather than by thetypes of mechanisms. Particular emphasis is placed on controllingstereospecificity and regiospecificity. Topics covered include: Transition metal mediated carbon-carbon bond formationreactions Use of stabilized carbanions, ylides and enamines forcarbon-carbon bond formation reactions, Advanced level use of oxidation and reduction reagents insynthesis. As a modern text, this book stands out from its competitors dueto its comprehensive coverage of recently published research. Thebook contains specific examples from the latest literature,covering modern reactions and the latest procedural modifications.The focus on contemporary and synthetically useful reactionsensures that the contents are specifically relevant and attractiveto postgraduate students and industrial organic chemists.
The renowned Oxford Chemistry Primer series, which provides focused introductions to a range of important topics in chemistry, has been refreshed and updated to suit the needs of today's students, lecturers, and postgraduate researchers. The rigorous, yet accessible, treatment of each subjectarea is ideal for those wanting a primer in a given topic to prepare them for more advanced study or research. Moreover, cutting-edge examples and applications throughout the texts show the relevance of the chemistry being described to current research and industry.Learning features provided in the primers, including questions at the end of every chapter and interactive online MCQs, encourage active learning and promote understanding. Furthermore, frequent diagrams, margin notes, further reading, and glossary definitions all help to enhance a student'sunderstanding of these essential areas of chemistry.Pericyclic reactions constitute a major strand of organic chemistry, including such commercially important synthetic reactions as the Diels-Alder reaction. Reactions such as these are characterised by their predictable stereochemistry and cyclic transition structures. This primer reviews thesereactions, explaining their theoretical basis via correlation diagrams, and showing students how to recognise the different types of pericyclic reaction, their mechanisms, and applications to organic synthesis.
A textbook on mechanistic organic chemistry.
Bonding in organic compounds. Reaction mechanisms and reaction rates. Nucleophilic aliphatic substitution. Ionic elimination and addition reactions. Aromatic substitution. Reactions of carbonyl compounds. Reactions involing free radicals.
This book presents key aspects of organic synthesis – stereochemistry, functional group transformations, bond formation, synthesis planning, mechanisms, and spectroscopy – and a guide to literature searching in a reader-friendly manner. • Helps students understand the skills and basics they need to move from introductory to graduate organic chemistry classes • Balances synthetic and physical organic chemistry in a way accessible to students • Features extensive end-of-chapter problems • Updates include new examples and discussion of online resources now common for literature searches • Adds sections on protecting groups and green chemistry along with a rewritten chapter surveying organic spectroscopy
This textbook is designed for students of biology, molecular biology, ecology,medicine, agriculture, forestry and other professions where the knowledge of organic chemistry plays an important role. The work may also be of interest to non-professionals, as well as to teachers in high schools. The book consists of 13 chapters that cover the essentials of organic chemistry, including - basic principles of structure and constitution of organic compounds, - the elements of the nomenclature, - the concepts of the nature of chemical bond, - introductions in NMR and IR spectroscopy, - the concepts and main classes of the organic reaction mechanisms, - reactions and properties of common classes or organic compounds, - and the introduction to the chemistry of the natural organic products followed by basic principles of the reactions in living cells. This second edition includes revisions and suggestions made by the readers of the first edition and the author's colleagues. In addition, it includes substantial changes compared to the first edition. The chapter on Cycloaddition has been completed by including the other pericyclic reactions (sigmatropic rearrangements, electrocyclic reactions). The chapter on Organic Natural Products has been extended to include new section covering the principles of organic synthesis. New chapter "Organic Supramolecular and Supermolecular Structures" is added. This chapter covers the basic knowledge about the molecular recognition, supramolecular structures, and the mechanisms of the enzyme catalyzed reactions.
A Handbook to Organic Chemistry Mechanisms is designed to accompany a standard organic chemistry textbook. The book presents complete mechanisms, start to finish, without any steps skipped or left out. The mechanisms have been carefully written to show each step in a logical and easy to follow format. Students have enthusiastically attested to the ease with which they could understand the mechanisms. Reaction mechanisms are one of the most challenging aspects of organic chemistry. This book is derived from Part D of A Guide to Organic Chemistry Mechanisms. That book is a guided inquiry workbook that shows students how to study and enables them to learn reaction mechanisms. Student knowledge is increased step by step by completing mechanisms at easy, moderate, and textbook levels of difficulty. A Handbook to Organic Chemistry Mechanisms also relies on example-based teaching. Chemical reactions can be learned in context, the way infants learn. Learning reactions from rules is difficult when there are many exceptions. Substitution and elimination reactions are noteworthy due to the number of conditions that must be accounted for. With example-based teaching, you can deduce the importance that stereochemistry, structure, solvent, leaving group, charge, basicity, or nucleophilicity may have on a reaction. A Handbook to Organic Chemistry Mechanisms has been designed with the principle that our brains are pattern-matching machines. Therefore, an emphasis has been placed upon the patterns of reactions. Each chapter represents a basic mechanistic theme. That theme is repeated with the examples. Insightful explanations have been included with the mechanisms. This book will be a valuable resource for reviewing for an exam, solving problems, or studying for the MCAT.