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Final report of research done utilizing a fluorination technique for the synthesis of perfluorinated and polyfluorinated organic compounds. (Author).
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
Organofluorine Compounds in Biology and Medicine covers topics on biochemically relevant organofluorine compounds and their synthesis and biochemical pathways. Organofluorine compounds have renewed interest in pharmaceutical industry, and therefore a concise book on this topic is highly relevant to the scientific community involved in this area. Covers the synthesis, biochemical, and therapeutic applications of organofluorine compounds Offers a complete text on biochemically relevant organofluorine compounds and their synthesis and mechanistic pathways Provides one of the first major reference books on the biological and medicinal applications of organofluorine chemistry
By presenting novel methods for the efficient preparation of fluorinated compounds and their application in pharmaceutical and agrochemical chemistry as well as medicine, this is a valuable source of information for all researchers in academia and industry!
In view of increasing interest in organofluorine compounds, this book was undertaken to describe biological and physical properties of organofluorine compounds, synthetic methods of these, their roles in pharmaceutical, agrochemical and material sciences. In particular, the book will emphasize on the usefulness of fluorination reaction, availability of fluorination agents, so that even graduate students who are unfamiliar to this field can understand and participate in this fascinating heteroatom chemistry.
Academia and industry join forces in Aromatic Fluorination, as an expert from each domain contributes to this new text on fluorination of carbocyclic and heterocyclic rings. The book begins with a discussion of fluorine's unique combination of properties, including size, electronic effects, and hydrophobicity, as well as the historical development of its product applications. It explains methods for introducing fluorine into an aromatic ring, focusing on nucleophilic fluorine transfer reactions. The role of catalysts, solvents, and other variables are examined, and the scope and limitations of the methods are discussed. Of particular interest to those working in non-specialist laboratories, Aromatic Fluorination includes detailed descriptions of the new electrophilic routes to fluoroaromatics, in addition to traditional routes and alternative methods involving radical chemistry. Because one of the most important fluorine-containing substituent is CF3, the book explains routes to benzotrifluorides (ArCF3), including traditional industrial methods and modern alternatives employing C-1 halofluorocarbons and other fluoroaliphatics. An alternative to CF3 is CF3S, and several methods of synthesizing aromatic CF3S-containing molecules are described. Since the successful development and diverse applications of aromatic fluorine compounds have led to the search for new compounds and novel substituents, the incorporation of other substituents is also explored. Aromatic Fluorination concludes with discussion of the factors responsible for the successful development of pharmaceutical, agrochemical and liquid crystal applications and the potential for applications in high-performance polymers and other areas. This section also describes in detail important industrial aromatic fluorination processes and the relative merits of different process technologies and their costs.
It has been found possible to preserve metal-carbon and metalloid-carbon bonds during direct fluorination. The reaction of dimethylmercury with fluorine gives bis(trifluoromethyl)mercury in 6.5% yield. Fluorination of tetramethylsilane has led to the isolation of the new polyfluorotetramethylsilanes of the following type, Si(CH3)x(CH2F)y(CHF2)z, x+y+z = 4. Also characterized were compounds containing Si-CF3. It has been possible to synthesize tetrakis(trifluoromethyl)germanium in 63,5% yield from the reaction of fluorine with tetramethylgermanium. Also characterized were many polyfluorotetramethylgermanes of the following type, Ge(CF3)x(CF2H)y(CFH2)z, z + y + z = 4. (Author).