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Modern Synthesis Processes and Reactivity of Fluorinated Compounds focuses on the exceptional character of fluorine and fluorinated compounds. This comprehensive work explores examples taken from all classes of fluorine chemistry and illustrates the extreme reactivity of fluorinating media and the peculiar synthesis routes to fluorinated materials. The book provides advanced and updated information on the latest synthesis routes to fluorocompounds and the involved reaction mechanisms. Special attention is given to the unique reactivity of fluorine and fluorinated media, along with the correlation of those properties to valuable applications of fluorinated compounds. - Contains quality content edited, and contributed, by leading scholars in the field - Presents applied guidance on the preparation of original fluorinated compounds, potentially transferable from the lab scale to industrial applications - Provides practical synthesis information for a wide audience interested in fluorine compounds in many branches of chemistry, materials science, and physics
The definitive guide to creating fluorine-based compounds—and the materials of tomorrow Discovered as an element by the French chemist Henri Moissan in 1886, through electrolysis of potassium fluoride in anhydrous hydrogen fluoride—"le fluor," or fluorine, began its chemical history as a substance both elusive and dangerous. With a slight pale yellow hue, fluorine is at room temperature a poisonous diatomic gas. Resembling a spirit from a chemical netherworld, fluorine is highly reactive, difficult to handle, yet very versatile as a reagent—with the power to form compounds with almost any other element. Comprising 20% of pharmaceutical products and 30% of agrochemical compounds, as well as playing a key role in electric cars, electronic devices, and space technology, compounds containing fluorine have grown in importance across the globe. Learning how to safely handle fluorine in the preparation of innovative new materials—with valuable new properties—is of critical importance to chemists today. Bringing together the research and methods of leading scientists in the fluorine field, Efficient Preparations of Fluorine Compounds is the definitive manual to creating, and understanding the reaction mechanisms integral to a wide variety of fluorine compounds. With sixty-eight contributed chapters, the book's extensive coverage includes: Preparation of Elemental Fluorine Synthesis Methods for Exotic Inorganic Fluorides with Varied Applications Introduction of Fluorine into Compounds via Electrophilic and Nucleophilic Reactions Direct Fluorination of Organic Compounds with Elemental Fluorine Efficient Preparations of Bioorganic Fluorine Compounds Asymmetric Fluorocyclization Reactions Preparations of Rare Earth Fluorosulfides and Oxyfluorosulfides The book offers methods and results that can be reproduced by students involved in advanced studies, as well as practicing chemists, pharmaceutical scientists, biologists, and environmental researchers. The only chemical resource of its kind, Efficient Preparations of Fluorine Compounds—from its first experiment to its last—is a unique window into the centuries old science of fluorine and the limitless universe of fluorine-based compounds.
The introduction of carbon-fluorine bonds into organic compounds can profoundly influence their chemical and physical properties when compared to their non-fluorine-containing analogues, leading to a range of man-made materials with highly desirable properties. These molecules are of interest across the wide spectrum of industrial and academic organic chemistry, from pharmaceuticals, through fine and specialty chemicals to polymers. From Prozac to Teflon, many of the most important products of the chemical and life-science industries rely on organic fluorine chemistry for their useful properties. This book covers both the preparative methodologies and chemical properties of partially and highly fluorinated organic systems.
Late-Stage Fluorination of Bioactive Molecules and Biologically-Relevant Substrates reviews how the use of these techniques on compounds with already known and relevant biological activity can provide new pharmaceutical leads with improved medicinal properties. The fluorination strategies discussed take into account both conventional and novel reagents, including nucleophilic, electrophilic, those of a radical nature, and diverse families of organic compounds, such as (hetero) aromatic rings and aliphatic substrates. Drawing on the authors' expert knowledge, this book provides researchers with a broad set of applicable methods to use in their work.
Fluorinated Materials for Energy Conversion offers advanced information on the application of fluorine chemistry to energy conversion materials for lithium batteries, fuel cells, solar cells and so on. Fluorine compounds and fluorination techniques have recently gained important roles in improving the electrochemical characteristics of such energy production devices. The book therefore focuses on new batteries with high performance, the improvements of cell performance and the improvement of electrode and cell characteristics. The authors present new information on the effect of fluorine and how to make use of fluorination techniques and fluorine compounds. With emphasis on recent developments, this book is suitable for students, researchers and engineers working in chemistry, materials science and electrical engineering. - Contains practical information, supported by examples - Provides an update on recent developments in the field - Written by specialists working in fluorine chemistry, electrochemistry, polymer and solid state chemistry
This volume reviews the recent advances in formation of C-F bonds and X-F bonds (X = heteroatom) to produce useful fluorinated molecules for pharmaceuticals, materials and more. Reactions and methods associated with fluorination, including monofluorination, difluorination, trifluorination and other polyfluorination that have emerged within the past few years are systematically discussed. With contributions from front-line researchers in this field from both academia and industry, this book provides a valuable resource for scholars, graduate students as well as professionals.
Fluorine in Life Sciences: Pharmaceuticals, Medicinal Diagnostics and Agrochemicals, volume four in Alain Tressaud's Progress in Fluorine Science series, presents a critical, multidisciplinary overview of the contributions of fluorinated products to solve important global issues in various life science fields, particularly in medicinal chemistry, molecular imaging techniques and agriculture. Edited by recognized experts, this book provides unique coverage of the wide-ranging uses and implications of fluorine and fluorinated compounds. Topics include medicinal monitoring and diagnosis, 19F MRI in medicine and in vivo cell tracking, 18F-labeled radiopharmaceuticals, brain imaging and neurology, risk assessment of reactive metabolites in drug discovery, and more. Edited by Alain Tressaud, past Chair and founder of the CNRS French Fluorine Network, each book in the collection also includes the work of highly-respected volume editors and contributors from both academia and industry who bring valuable and varied content to this active field. - Covers a wide range of topics - from organic and physical chemistry, to pharmaceuticals, agrochemicals and medical diagnostics - Describes major modern syntheses and unique reaction mechanisms yielding fluorine compounds in these diverse life science settings - Features contributions from a wealth of global experts - Acts as the fourth volume in Alain Tressaud's Progress in Fluorine Science
The Curious World of Fluorinated Molecules: Molecules Containing Fluorine is the sixth volume in the Progress in Fluorine Science series and is edited by the world-renowned scientist Konrad Seppelt. Dr. Seppelt brings together a team of global experts to uncover the multifaceted nature of the most electronegative element in the Periodic Table. The book explores the fascinating world of unpredictable, fluorine-containing molecules through their discoveries, path to recognition, current state of the art, and impact on the broader fields of fluorinated materials development. This volume will inspire and energize researchers, future scientists, and educators working in fluorine chemistry. - Highlights the current state of fundamental research of fluorinated molecules that either helped to rewrite the fundamental rules of chemistry or impacted modern material technologies - Features contributions from a global team of leading experts in the field - Provides a unique combination of the historical and current examples that explain the unique role that fluorine can play in advancing our understanding of the scientific method at large
A thorough survey of synthetic methods, chemistry, and applications of major classes of fluorinated heterocycles Merging organic, heterocyclic, and fluoroorganic chemistry, fluorinated heterocyclic compounds have distinctively desirable properties suitable for use in pharmaceuticals and agrichemicals, especially their ability to penetrate the cell membrane barrier for drug absorption. Offering a needed overview of this relatively new addition to the heterocyclic family, this essential reference provides the latest state-of-the-art information on key application areas within fluorine chemistry. With contributions from experts from both industry and academia, the book covers the chemistry, synthesis, and applications of fluorinated heterocycles with chapters on: Three-, four-, five-, six-, and seven-membered fluorine-containing heterocycles Fluorinated nucleosides Fluorointermediates Applications of fluorinated heterocycles in agricultural products Pharmaceuticals containing fluorinated heterocycles Technical applications of fluorinated heterocycles Written by a team of world-recognized experts in the area of organic and industrial chemistry of fluorine, Fluorinated Heterocyclic Compounds: Synthesis, Chemistry, and Applications will prove valuable to both students and researchers from academia and industry seeking further knowledge of the synthetic methods, chemistry, and applications of major classes of fluorinated heterocycles.