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Klappentext In the past decade a new era in asymmetric catalysis has been realised by the discovery of L-proline induced chiral enamines from carbonyls. Inspired by this, researchers have developed many other primary catalytic species in situ, more recently secondary catalytic species such as aminals have been identified for use in asymmetric synthesis.High-yielding asymmetric synthesis of bioactive and natural products through mild catalysis is an efficient approach in reaction engineering. In the early days, synthetic chemists mainly focused on the synthesis of complex molecules, with less attention on the reaction efficiency and eco-friendly conditions. Recent investigations have been directed towards the development of atom economy, eco-friendly and enantioselective synthesis for more targeted and efficient synthesis.Building on the momentum of this rapidly expanding research area, Dienamine Catalysis for Organic Synthesis will provide a comprehensive introduction, from the preformed species, in situ generation and onto their applications in the synthesis of bioactive molecules and natural products. Zusammenfassung Dienamine Catalysis for Organic Synthesis will provide a comprehensive introduction! from the preformed species! in situ generation and onto their applications in the synthesis of bioactive molecules and natural products. Inhaltsverzeichnis Introduction to Dienamine Chemistry; Synthesis and Applications of Preformed Dienamines; Barbas Dienamines (2-Aminobuta-1,3-dienes): Scope and Applications; Ramachary's Dienamines (Push-Pull Dienamines): In Situ Generation and Applications; Serebryakov-Jorgensen Dienamines (1-Aminobuta-1,3-dienes): Different In Situ Generation Methods and Applications in [4+2]-Cycloadditions; Serebryakov-Jorgensen Dienamines (1-Aminobuta-1,3-dienes): Different In Situ Generation Methods and Applications in [2+2]-, [3+2]- and a Few Other Cycloadditions; Asymmetric¿¿-Selective and Remote ¿-Selective Functionalization of Enals and Enones through Serebryakov-Jorgensen Dienamines (1-Aminobuta-1,3-dienes); Applications of Serebryakov-Jorgensen Dienamines (1-Aminobuta-1,3-dienes) in Domino or Cascade Reactions; Aminoenyne (2-Aminobuta-1,3-enyne) Catalysis: In Situ Generation and Synthetic Applications in Organic Reactions; Trienamine catalyzed stereoselective cycloadditions and other remote functionalizations of polyconjugated enals/enones; Tetraenamine catalyzed stereoselective cycloadditions of polyunsaturated carbonyl compounds...
