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有机合成反应

有机合成反应. 唐 勇 金属有机化学国家重点实验室. 2005.2. Chapter 4 The Chemistry of Nitrogen-based and related Compounds-1. Reading Assignment. 1. Ho, T.-L. "Polarity Control for Synthesis"; John Wiley & Sons, Inc.: New York, 1991. 2. Ono, N., "The Nitro Group in Organic Synthesis", Wiley-VCH, 2001.

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有机合成反应

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  1. 有机合成反应 唐 勇 金属有机化学国家重点实验室 2005.2 Shanghai, China

  2. Chapter 4 The Chemistry of Nitrogen-based and related Compounds-1 Reading Assignment 1. Ho, T.-L. "Polarity Control for Synthesis"; John Wiley & Sons, Inc.: New York, 1991. 2. Ono, N., "The Nitro Group in Organic Synthesis", Wiley-VCH, 2001 Shanghai, China

  3. § 4-1Some Reactions of Nitro Compounds Shanghai, China

  4. p Problems of the day Shanghai, China

  5. Shanghai, China

  6. Reduction Shanghai, China

  7. Nucleophilic Addition Shanghai, China

  8. Electrophilic Substitution Seebach et. al. Tetrahedron Lett. 1977, 1161-1164 Shanghai, China

  9. Shanghai, China

  10. Conjugate Addition Shanghai, China

  11. McMurry et al. Chem Comm. 1971, 488-489. Bakuzis etal.Tetrahedron Lett.1978, 2371. Shanghai, China

  12. –NO2 As a Leaving Group Review: Tamura et. al. Synthesis 1991, 423-434. Seebach, D. et al., Chimia, 1979, 33, 1-18 Shanghai, China

  13. Other Reactions Shanghai, China

  14. § 4-2 Reactions of Diazo Compounds Shanghai, China

  15. Acid Catalyzed Reactions of Diazo Compounds • Review: Smith, et al. Tetrahedron 1981, 2407. Diazocarbonyl Diazonium Common acids include BF3•OEt2, HBF4, TFA, etc. Mechanism of activation is unclear for both Lewis and protic acids; activation may occur by protonation on C or O Shanghai, China

  16. Mander, Chem. Comm. 1971, 773 & Tetrahedron, 1991, 134. Shanghai, China

  17. Mander, JACS, 1980, 6626. Shanghai, China

  18. Shanghai, China

  19. Polyene cyclizations: Smith, JACS, 1981, 2009. Mander, Aust. J. Chem. 1979, 1975. Shanghai, China

  20. • Ring Expansion Reactions: Restriction: Starting ketone must be more reactive than product ketone Shanghai, China

  21. Shanghai, China

  22. • Substitution Reactions Shanghai, China

  23. Shanghai, China

  24. Reactions with Boranes Shanghai, China

  25. Base-induced Reactions Shanghai, China

  26. Carbene and Carbenoid Reactions: Decomposition can be catalyzed by: Heat or light Transition metals, including CuII, RhII, MnII, FeII, CoII, Ni0, NiII, ZnII, MoII, RuII, RuIII, PdII Most common catalysts: Copper (I): CuOTf, Cu(OTf)2, CuSO4, CuX, Cu(acac)2 Rhodium (II): Much milder catalyst than Cu (introduced in 1973 by Tessié); Structures generally contain bridging ligands and contain a Rh-Rh single bond; Reaction pathways are highly sensitive to steric and electronic effects. p p Shanghai, China

  27. Precursors to Carbenes: p Shanghai, China

  28. p Shanghai, China

  29. Transition Metal Catalyzed Diazo Decomposition Doyle, Chem. Rev. 1986, 919. Shanghai, China

  30. When X is a heteroatom, insertion is facile • When X is carbon: Only intramolecular processes • are generally useful • 5 - membered ring formation is favored in general • Order of selectivity: methine > methylene > methyl Shanghai, China

  31. Shanghai, China

  32. Shanghai, China

  33. Shanghai, China

  34. Shanghai, China

  35. Shanghai, China

  36. Shanghai, China

  37. Shanghai, China

  38. Shanghai, China

  39. Shanghai, China

  40. Shanghai, China

  41. Shanghai, China

  42. Ylide Formation Shanghai, China

  43. Shanghai, China

  44. Shanghai, China

  45. Shanghai, China

  46. Wolf Rearrangement Shanghai, China

  47. Shanghai, China

  48. Shanghai, China

  49. p Shanghai, China

  50. § 4-3 Hydrazone-based Transformations • Wolff-Kischner Reduction • Wharton Rearrangement • Eschenmoser-Tanabe Fragmentation • Reduction of Tosyl Hydrazones: "The Alkene Walk“ • Tosyl Hydrazone-Based Fragment Coupling • The Shapiro Reaction • Bamford-Stevens Reaction Shanghai, China

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