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1. 刑其毅主编  基础有机化学 2. 曾昭琼主编  有机化学实验 3. 宁永成主编  有机化合物结构鉴定与有机波谱学 4. 谢如刚主编  现代有机合成化学 5. 吴毓林主编  现代有机合成化学

阅读书目. 1. 刑其毅主编  基础有机化学 2. 曾昭琼主编  有机化学实验 3. 宁永成主编  有机化合物结构鉴定与有机波谱学 4. 谢如刚主编  现代有机合成化学 5. 吴毓林主编  现代有机合成化学. Asymmetric Organic Synthesis. Quan-Zhong Liu. Open Laboratory of Asymmetric Synthesis, China West Normal University. 1. 有机不对称合成 : 从理论到实践. 1). 手性是自然界的基本属性. 手性 : chirality.

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1. 刑其毅主编  基础有机化学 2. 曾昭琼主编  有机化学实验 3. 宁永成主编  有机化合物结构鉴定与有机波谱学 4. 谢如刚主编  现代有机合成化学 5. 吴毓林主编  现代有机合成化学

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  1. 阅读书目 1.刑其毅主编  基础有机化学 2.曾昭琼主编  有机化学实验 3.宁永成主编  有机化合物结构鉴定与有机波谱学 4.谢如刚主编  现代有机合成化学 5.吴毓林主编  现代有机合成化学

  2. Asymmetric Organic Synthesis Quan-Zhong Liu Open Laboratory of Asymmetric Synthesis, China West Normal University

  3. 1. 有机不对称合成: 从理论到实践 1). 手性是自然界的基本属性 手性:chirality 2). 手性药物 手性药物的销售情况

  4. 2. 手性的命名及相关术语 1). Fisher 规则 2). Cahan-Ingold-Prelog 规则

  5. 2). 相关术语 D-or L- d-or l- 立体异构体、对映(异构)体、非对映(异构)体 对映(异构)体过量、对映选择性 对映选择性:一个化学反映中产生的某一个对映体多于其相应的异构体的程度 光学活性、光学异构体和光学纯度 外消旋、内消旋和外消旋化 racemization Re, Si

  6. 顺式/反式(syn/anti)、苏式/赤式(threo/erythro form) 苏式 赤式

  7. 3. 对映体组成的测定 比旋光度的测定 [a] 测定的旋光度 L样品池的光路长度 dm C浓度g/mL 光学纯度或ee值=100% * [a]测定/[a]绝对 核磁共振

  8. 手性位移试剂 HPLC 绝对构型的测定

  9. 4. Asymmetric Organic Synthesis Chiral Resolution: Kinetic Resolution:

  10. Dynamic Kinetic Resolution: Chiral induction:

  11. Catalytic Asymmetric Synthesis:

  12. Asymmetric Alkylation

  13. 1. Asymmetric Alkylation

  14. 1.1 Asymmetric Alkylation of tert-Butyl Glycinate Schiff Base 1) Cinchona derived phase transferred catalysts

  15. 金鸡纳生物碱的结构: 反应机理: 2) BINOLderived quternary ammonium catalyst

  16. 合成方法:

  17. 合成方法: 参考文献: J.Am.Chem.Soc.1989,111,2323-2355. J.Am.Chem.Soc.1997,119,12414-12415. Org. Process Res. Dev., 2008, 12,679–697 J. Am. Chem. Soc., 2005, 127,5073–5083

  18. 1.2 Asymmetric Alkylation of enolate

  19. 2. Coupling Reactions 2.1 Stille reaction The Stille reaction (or Stille Coupling) is a chemical reaction coupling an organotin compound with an sp2-hybridized organic halide catalyzed by palladium. The reaction is widely used in organic synthesis. X is typically a halide, such as Cl, Br and I. Additionally, X can be a pseudohalide such as a triflate, CF3SO3- The Stille reaction was discovered in 1977 by John Kenneth Stille and David Milstein, a post-doctorate in his laboratory. Stille reactions were used in 50% of all cross-coupling reactions published in 1992. The reaction continues to be exploited industrially, especially for pharmaceuticals.

  20. Reaction condition: inert atmosphere, dehydrated and degassed solvent , trimethylstannyls are more reactive than tributylstannyl but more poisonous 2.1.1 Mechanism

  21. Rate of ligand transfer (transmetalation) from tin: alkynyl > alkenyl > aryl > allyl = benzyl > α-alkoxyalkyl > alkyl The low reactivity of alkyl stannanes is a serious drawback but can be remedied by the use of strongly polar solvents such as, DMF or dioxane.

  22. 2.2.2 Application

  23. 2. 2 Suzuki Coupling Reactions Miyaura, N.; Suzuki, A. Chem. Rev. 1995, 95, 2457-2483. Suzuki, A. J. Organometallic Chem. 1999, 576,147–168. The Suzuki reaction is the organic reaction of an aryl- or vinyl-boronic acid with an aryl- or vinyl-halide catalyzed by a palladium(0) complex. It is widely used to synthesize poly-olefins, styrenes, and substituted biphenyls, and has been extended to incorporate alkyl bromides

  24. The scheme above shows the first published Suzuki Coupling, which is the palladium-catalysed cross coupling between organoboronic acid and halides. Recent catalyst and methods developments have broadened the possible applications enormously, so that the scope of the reaction partners is not restricted to aryls, but includes alkyls, alkenyls and alkynyls. Potassium trifluoroborates and organoboranes or boronate esters may be used in place of boronic acids. Some pseudohalides (for example triflates) may also be used as coupling partners. 2. 2.1 Mechanism

  25. 2. 2.2 Substrate scope

  26. 2. 2.3 Organoboranes

  27. 2. 2.3 Application

  28. 2. 3 Heck Reaction The Heck reaction (also called the Mizoroki-Heck reaction) is the chemical reaction of an unsaturated halide (or triflate) with an alkene and a strong base and palladium catalyst to form a substituted alkene. It is named after the American chemist Richard F. Heck. The reaction is performed in the presence of an organopalladium catalyst. The halide or triflate is an aryl, benzyl, or vinyl compound and the alkene contains at least one proton and is often electron-deficient such as acrylate ester or an acrylonitrile.The catalyst can be tetrakis(triphenylphosphine)palladium(0), palladium chloride or palladium(II) acetate. The ligand is triphenylphosphine or BINAP. The base is triethylamine, potassium carbonate or sodium acetate

  29. 2. 3.1 Mechanism

  30. 2. 3.2 Application

  31. 2. 4 Kumada reaction 2. 5 Sonogashira reaction

  32. 3 Aldol reaction

  33. 3.1 Z-enolates and E-enolates

  34. 3.2 Aldol reaction of Z-enolates

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