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Informationen zum Autor Dr Stuart Warren, Department of Chemistry, University of Cambridge, UK Dr Warren is the author of the bestselling textbooks Organic Synthesis: The Disconnection Approach (Wiley), Organic Synthesis: Strategy and Control (Wiley) and Organic Chemistry (OUP). Dr Paul Wyatt, School of Chemistry, University of Bristol, UK Dr Wyatt is Director of Undergraduate Studies for the School of Chemistry at Bristol University and also Director of BRISTOL ChemLabS - a HEFCE Centre for Excellence in Teaching & Learning. He is co-author, with Warren, of Organic Synthesis: Strategy and Control . Klappentext Lange erwartet wurde diese zweite Auflage des Klassikers der Retrosynthese, des damals ersten strukturierten Lehrbuchs einer inzwischen fest etablierten Technik der organischen Synthesechemie. In Inhalt und äußerer Form vollständig überarbeitet, reflektiert diese Auflage die Fortschritte der organischen Synthese in den zurückliegenden 25 Jahren. Neben zahlreichen Beispielen und Synthesewegen wurde auch Material ergänzt, das einen unmittelbaren Anschluss zu dem beliebten Band ?Organic Synthesis: Strategy and Control? herstellt. Speziell in die hinteren Kapitel haben die Autoren eigene Lehrerfahrung aus der pharmazeutischen Industrie einfließen lassen. Zusammenfassung One approach to organic synthesis is retrosynthetic analysis. With this approach a chemist will start with the structure of their target molecule and progressively cut bonds to create simpler molecules. Reversing this process gives a synthetic route to the target molecule from simpler starting materials. Inhaltsverzeichnis Preface ix General References xi 1. The Disconnection Approach 1 2. Basic Principles: Synthons and Reagents Synthesis of Aromatic Compounds 7 3. Strategy I: The Order of Events 17 4. One-Group C-X Disconnections 23 5. Strategy II: Chemoselectivity 29 6. Two-Group C-X Disconnections 35 7. Strategy III: Reversal of Polarity, Cyclisations, Summary of Strategy 45 8. Amine Synthesis 53 9. Strategy IV: Protecting Groups 61 10. One Group C-C Disconnections I: Alcohols 69 11. General Strategy A: Choosing a Disconnection 77 12. Strategy V: Stereoselectivity A 83 13. One Group C-C Disconnections II: Carbonyl Compounds 93 14. Strategy VI: Regioselectivity 101 15. Alkene Synthesis 107 16. Strategy VII: Use of Acetylenes (Alkynes) 115 17. Two-Group C-C Disconnections I: Diels-Alder Reactions 121 18. Strategy VIII: Introduction to Carbonyl Condensations 129 19. Two-Group C-C Disconnections II: 1,3-Difunctionalised Compounds 133 20. Strategy IX: Control in Carbonyl Condensations 139 21. Two-Group C-C Disconnections III: 1,5-Difunctionalised Compounds Conjugate (Michael) Addition and Robinson Annelation 151 22. Strategy X: Aliphatic Nitro Compounds in Synthesis 161 23. Two-Group Disconnections IV: 1,2-Difunctionalised Compounds 167 24. Strategy XI: Radical Reactions in Synthesis 177 25. Two-Group Disconnections V: 1,4-Difunctionalised Compounds 185 26. Strategy XII: Reconnection 193 27. Two-Group C-C Disconnections VI: 1,6-diCarbonyl Compounds 199 28. General Strategy B: Strategy of Carbonyl Disconnections 207 29. Strategy XIII: Introduction to Ring Synthesis: Saturated Heterocycles 217 30. Three-Membered Rings 229 31. Strategy XIV: Rearrangements in Synthesis 237 32. Four-Membered Rings: Photochemistry in Synthesis 245 33. Strategy XV: The Use of Ketenes in Synthesis 251 34. Five-Membered Rings 255 35. Strategy XVI: Pericyclic Reactions in Synthesis: Special Methods for Five-Membered Rings 261 36. Six-Membered Rings 269 37. General Strategy C: Strategy of Ring Synthesis 279 38. Stra...
