جزییات کتاب
The use of Lewis acids in organic synthesis, especially in catalysis is one of the most rapidly developing fields in synthetic organic chemistry. In addition, Lewis acid catalysis is one of the key technologies for asymmetric synthesis, and combinatorial chemistry as well as for large-scale production. Until now, pertinent information on these topics was scattered throughout the literature. Although review articles have appeared,it was difficult for the researcher to compare different methods based on Lewis acids. This two-volume handbook, edited and written by an outstanding team of experts in the field, fills this gap! This book is based on a classification according to metal centre of these electron-deficient compounds, allowing an in-depth treatment of the characteristics, benefits and limitations of each class of acid. Extensive cross-referencing and a comprehensive index enables readers to quickly find the solution to their synthesis problem. The chemical community will welcome this as a source of inspiration and invaluable reference for daily work. Content: Chapter 1 Introduction (pages 1–7): Hisashi YamamotoChapter 2 Li(I), Na(I), and K(I) Lewis Acids (pages 9–58): Susumu SaitoChapter 3 Mg(II) and Zn(II) Lewis Acids (pages 59–88): Yukihiro Motoyama and Hisao NishiyamaChapter 4 Achiral B(III) Lewis Acids (pages 89–133): Kazuaki IshiharaChapter 5 Chiral B(III) Lewis Acids (pages 135–190): Kazuaki IshiharaChapter 6 Achiral Al(III) Lewis Acids (pages 191–281): Takashi Ooi and Keiji MaruokaChapter 7 Chiral Aluminum Lewis Acids in Organic Synthesis (pages 283–354): William D. WulffChapter 8 Silicon(IV) Lewis Acids (pages 355–393): Masataka OishiChapter 9 Sn(II) and Sn(IV) Lewis Acids (pages 395–452): Kazuaki IshiharaChapter 10 Preparation and Addition Reactions of Allylic and Allenic Tin and Indium Reagents (pages 453–522): James A. MarshallChapter 11 Sb(III) and Sb(V) Lewis Acids (pages 523–541): Kazuaki IshiharaChapter 12 Copper Lewis Acids in Organic Synthesis (pages 543–574): Mukund P. Sibi and Gregory R. CookChapter 13 Ag(I), Au(I) Lewis Acids (pages 575–596): Akira YanagisawaChapter 14 Transition Metal Lewis Acids: From Vanadium to Platinum (pages 597–652): E. Peter Kundig and Christophe M. SaudanChapter 15 Titanium(IV) Lewis Acids (pages 653–798): Hirokazu Urabe and Fumie SatoChapter 16 Chiral Ti(IV) Lewis Acids (pages 799–847): Koichi Mikami and Masahiro TeradaChapter 17 Hf?Centered Lewis Acids in Organic Chemistry (pages 849–864): Keisuke Suzuki and Shigeo YamanoiChapter 18 Zirconium Lewis Acids (pages 865–881): Ryuichiro Hara and Tamotsu TakahashiChapter 19 Sc(III) Lewis Acids (pages 883–910): Shu KobayashiChapter 20 Lanthanide Lewis Acids Catalysis (pages 911–944): Masakatsu Shibasaki, Ken?Ichi Yamada and Naoki YoshikawaChapter 21 Polymer?Supported Metal Lewis Acids (pages 945–979): Shinichi Itsuno