1. Introduction 2. Michael Reaction 2.1. Phospha- and Aza-Michael Reactions 2.2. Henry Reaction 2.3. Friedel−Crafts Reaction 3. Epoxidation Reaction 4. Radical Reaction 5. [3 + 2] Dipolar Cycloaddition Reaction 6. D.A. Reaction 6.1. Families of Unusual Catalysts for the D.A. Reaction 6.1.a. Natural and Artificial Metalloenzymes 6.1.b. DNA-Based Asymmetric D.A. Reaction 7. Hetero D.A. Reaction 8. Influence of Substituents on Reactivity and Selectivity 9. Relationship between Different Organocatalysts or Chiral Complexes and the Stereochemical Outcome 10. Comparison between the Enantioselectively- Catalyzed Reactions with (E)-2-Alkenoyl-pyridines, Their N-Oxides, and the Corresponding Chalcones 11. Conclusions Associated Content Supporting Information Author Information Corresponding Author Notes Biographies Acknowledgments Dedication References
Enantioselectively-Catalyzed Reactions with (E)‑2-Alkenoyl-pyridines, Their N‑Oxides, and the Corresponding Chalcones
DESIMONI, GIOVANNI;FAITA, GIUSEPPE;QUADRELLI, PAOLO
2014-01-01
Abstract
1. Introduction 2. Michael Reaction 2.1. Phospha- and Aza-Michael Reactions 2.2. Henry Reaction 2.3. Friedel−Crafts Reaction 3. Epoxidation Reaction 4. Radical Reaction 5. [3 + 2] Dipolar Cycloaddition Reaction 6. D.A. Reaction 6.1. Families of Unusual Catalysts for the D.A. Reaction 6.1.a. Natural and Artificial Metalloenzymes 6.1.b. DNA-Based Asymmetric D.A. Reaction 7. Hetero D.A. Reaction 8. Influence of Substituents on Reactivity and Selectivity 9. Relationship between Different Organocatalysts or Chiral Complexes and the Stereochemical Outcome 10. Comparison between the Enantioselectively- Catalyzed Reactions with (E)-2-Alkenoyl-pyridines, Their N-Oxides, and the Corresponding Chalcones 11. Conclusions Associated Content Supporting Information Author Information Corresponding Author Notes Biographies Acknowledgments Dedication ReferencesI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
