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Название: Catalytic Asymmetric Synthesis

Автор: Группа авторов

Издательство: John Wiley & Sons Limited

Жанр: Химия

Серия:

isbn: 9781119736417

isbn:

СКАЧАТЬ new book, which would be the most useful desktop reference book by covering new methodologies, but at the same time keeping the progress in the “classics” of the third edition. In order to capture the most significant progress in the 2010s, several new chapters of organocatalysis are introduced, i.e., enamine and iminium catalysis (Chapter 1), acid catalysis (Chapter 2), base catalysis (Chapter 3), phase transfer catalysis (Chapter 4), peptide catalysis (Chapter 5), carbene catalysis (Chapter 6), and hypervalent catalysis (Chapter 7). Photochemical reactions are also introduced, i.e., photoredox catalysis (Chapter 8), photoredox reactions in the absence of photoredox catalysis (Chapter 9), and [2 + 2] cycloaddition reactions (Chapter 10). The asymmetric C–H bond activation reactions are covered by two chapters, i.e., C(sp2)–H bond (Chapter 11) and C(sp3)–H bond (Chapter 12). Asymmetric halogenation reaction, enzyme‐catalyzed asymmetric synthesis, asymmetric hydrogenation, and asymmetric polymerization are presented in Chapters 13, 14, 15, and 21. The construction of noncentrochiral compounds are discussed in two chapters, i.e., axially chiral compounds (Chapter 19) and planar chiral and helically chiral compounds (Chapter 20). Finally, applications of continuous flow technology to catalytic asymmetric synthesis, which may dramatically change manufacturing processes for pharmaceutical drugs and chiral materials, is discussed in Chapter 21.

      We sincerely hope that this book attracts the interest of broad range of synthetic, organic, medicinal, and material chemists, in particular, among the younger generation researchers in both academia and industry, who can bring in creative ideas and innovative approaches to Catalytic Asymmetric Synthesis and advance it to the new height.

      Takahiko Akiyama

      Iwao Ojima

      November, 2021

      Biological systems, in most cases, recognize a pair of enantiomers as different substances, and the two enantiomers will elicit different responses. Thus, one enantiomer may act as a very effective therapeutic drug, whereas the other enantiomer is highly toxic. The sad example of thalidomide is well‐known. It is the responsibility of synthetic chemists to provide highly efficient and reliable methods for the synthesis of desired compounds in an enantiomerically pure state, that is, with 100% enantiomeric excess (% ee), so that we shall not repeat the thalidomide tragedy. It has been shown for many pharmaceuticals that only one enantiomer contains all of the desired activity, and the other is either totally inactive or toxic. Recent movements of the Food & Drug Administration (FDA) in the United States clearly reflect the current situation in “Chiral Drugs,” that is, pharmaceutical industries will have to provide rigorous justification to obtain the FDA’s approval of racemates. Several methods are used to obtain enantiomerically pure materials, which include classical optical resolution via diastereomers, chromatographic separation of enantiomers, enzymic resolution, chemical kinetic resolution, and asymmetric synthesis.

      The importance and practicality of asymmetric synthesis as a tool to obtain enantiomerically pure or enriched compounds have been fully acknowledged to date by chemists in synthetic organic chemistry, medicinal chemistry, agricultural chemistry, natural products chemistry, pharmaceutical industries, and agricultural industries. This prominence is due to the explosive development of newer and more efficient methods during the last decade.

      This book describes recent advances in catalytic asymmetric synthesis with brief summaries of the previous achievements as well as general discussions of the reactions. A previous book reviewing this topic, Asymmetric Synthesis, Vol. 5—Chiral Catalysis, edited by J. D. Morrison (Academic Press, Inc., 1985), compiles important contributions through 1982. Another book, Asymmetric Catalysis, edited by B. Bosnich (Martinus Nijhoff, 1986) also concisely covers contributions up to early 1984. In 1971, an excellent book, Asymmetric Organic Reactions, by J. D. Morrison and H. S. Mosher, reviewed all earlier important work on the subject and compiled nearly 850 relevant publications through 1968, including some papers published in 1969. In the early 1980s, a survey of publications dealing with asymmetric synthesis (in a broad sense) indicated that the total number of papers in this area of research published in the 10 years after the Morrison/ Mosher book, that is, 1971–1980, was almost the same as that of all the papers published before 1971. This doubling of output clearly indicates the attention paid to this important topic in 1970s. Since the 1980s, research on asymmetric synthesis has become even more important and popular when enantiomerically pure compounds are required for the total synthesis of natural products, pharmaceuticals, and agricultural agents. It would not be an exaggeration to say that the number of publications on asymmetric synthesis has been increasing exponentially every year.

      This book covers the following catalytic asymmetric reactions: asymmetric hydrogenation (Chapter 1), isomerization (Chapter 2), cyclopropanation (Chapter 3), oxidations (epoxidation of allylic alcohols as well as unfunctionalized olefins, oxidation of sulfides, and dihydroxylation of olefins) (Chapter 4), hydrocarbonylations (Chapter 5), hydrosilylation (СКАЧАТЬ