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Ozonation in Organic chemistry, Volume I: Olefinic Compounds covers the historical background of ozone reactions with organic substances and the mechanisms of these reactions. Composed of 12 chapters, this book first deals with the development of the available theory of all ozone reactions, such as the Harries and Staudinger theories, particularly the Criegee mechanism of ozonolysis. This text then describes the step-by-step mechanism of the classical ozonolysis reaction of olefins and how it evolved. Considerable chapters are devoted to the reactions that compete with ozonolysis, such as epoxidation and other partial cleavage reactions. Both liquid- and gas-phase ozone reactions are explored in other chapters. This volume will appeal to those who are interested in exploring the frontiers of ozone-organic chemistry.
Methods for the Oxidation of Organic Compounds: Alkanes, Alkenes, Alkynes, and Arenes is an account of the different methods used for the controlled oxidation of alkanes, alkenes, alkynes, and arenes. Most of the oxidative techniques considered are illustrated with detailed experimental procedures taken from the literature. This book is comprised of five chapters and begins with a discussion on alkanes, alkyl groups, and hydrocarbon residues. The formation of alkenes, alcohols, hydroperoxides, dialkyl peroxides, cyclic peroxides, ethers, and esters as well as aldehydes, ketones, and carboxylic acids is described, together with the aromatization of cyclic systems. The following chapters are devoted to alkenes, alkynes, and arenes and focus on the formation of compounds ranging from 1,2-diols and oxiranes (1,2-epoxides) to 1,2-dicarbonyl compounds, phenols and their derivatives, and quinones. The formation of dialkynes by oxidative coupling of 1-alkynes is described, along with the oxidative cleavage of arenes and oxidative coupling of phenols. This monograph should be of interest to organic chemists and research students.
Ozonation in Organic Chemistry, Volume II: Nonolefinic Compounds discusses the reactions of ozone with organic compounds. The book presents the role of ozone in air pollution. It demonstrates the use of ozonation in wastewater purification, effects of ozone on biological systems, and degradation of rubber. The text describes the ozonation of acetylenic compounds, benzene, and substituted benzenes. It discusses the bond attack on benz-fused carbocyclics. Another topic of interest is the mechanism of ozonation of anthracene. The section that follows describes the electrophilic ozone attack on nitrogen. The book will provide valuable insights for chemists, environmentalists, students, and researchers in the field of organic chemistry.
Handbook of Preparative Inorganic Chemistry, Volume 1, Second Edition focuses on the methods and mechanisms involved in conducting experiments on inorganic chemistry. Composed of contributions of various authors, the first part of the handbook focuses on special methods and devices for inorganic preparations. The materials mentioned include metals, plastics, pure solvents, and mercury. The text also looks at the importance of temperature and electrical discharges at the laboratory. The second part focuses on elements and compounds, hydrogen peroxide, and fluorine. Schematic diagrams and numerical representations are presented. The chemical reactions of these compounds when exposed to different laboratory conditions are analyzed through numerical representations and schematic diagrams. The handbook also presents lengthy discussions on the properties, compositions, and chemical responses of elements, compound, alkali metals, and earth metals. The formulas, reactions, and methodologies used in the experiments are presented. Considering the value of experiments contained, this manual is a valuable reference for readers interested in studying inorganic chemistry.
The two-part, fifth edition of Advanced Organic Chemistry has been substantially revised and reorganized for greater clarity. The material has been updated to reflect advances in the field since the previous edition, especially in computational chemistry. Part A covers fundamental structural topics and basic mechanistic types. It can stand-alone; together, with Part B: Reaction and Synthesis, the two volumes provide a comprehensive foundation for the study in organic chemistry. Companion websites provide digital models for study of structure, reaction and selectivity for students and exercise solutions for instructors.
Basic Principles in Nucleic Acid Chemistry, Volume I provides information pertinent to the fundamental aspects of nucleic acids. This book discusses the development of the basic principles in nucleic acid research that will serve as a foundation for further advancement in nucleic acid research. Organized into six chapters, this volume begins with an overview of the history of the scientific study of nucleic acid as a genetic material. This text then examines the utility of the analogs of the naturally occurring nucleic acid components as biochemical tools and as therapeutic agents. Other chapters consider mass spectrometry that deals with the production and chemistry of ions in the vapor phase. This book discusses as well the various aspects of the excited states of the nucleic acids. The final chapter deals with the systematic study of the physiochemical properties of the monomeric units of nucleic acid. This book is a valuable resource for molecular biologists, scientists, and research workers.
Polymer Syntheses, Volume I presents detailed laboratory instructions for the preparation of polymers by different functional group classes. This book provides the laboratory procedures for the preparation of polymers containing phosphorus in various oxidation states. Organized into 15 chapters, this volume begins with an overview of some selected preparative methods for carrying out the major methods of polymerization in the laboratory. This text then examines the synthesis of phosphonitrilic polymers. Other chapters consider the synthesis of peroxide and hydroperoxide free radical initiators. This book discusses as well the principles involved in the preparation of emulsion polymers, which are applicable to the preparation of polymers of a wide variety of vinyl monomers and many copolymerizations. The final chapter deals with the chemistry of organometallic and organometalloid peroxides. This book is a valuable resource for chemists involved in the designing of phosphorus polymers to meet fire retardant requirements of various products.
Ozonation in Organic Chemistry V2 ...