| 题名 | 手性有机小分子路易斯碱催化剂的设计、合成及其在亚胺不对称还原中的应用; Design and Synthesis of Chiral Lewis Basic Organocatalysts for Asymmetric Reduction of Imines |
| 作者 | 王周玉 |
| 学位类别 | 博士 |
| 答辩日期 | 2007-05-01 |
| 导师 | 孙健 |
| 关键词 | 有机小分子催化剂 亚胺还原 路易斯碱 三氯氢硅 对映选择性 organocatalyst reduction of imines Lewis base trichlorosilane enantioselectivity |
| 其他题名 | Design and Synthesis of Chiral Lewis Basic Organocatalysts for Asymmetric Reduction of Imines |
| 中文摘要 | 手性胺是合成天然产物和手性药物的重要中间体,亚胺的不对称催化还原是制备光学活性手性胺的最直接有效的方法之一。但是,由于C=N双键的反应活性较弱以及容易发生E/Z异构等问题,亚胺的不对称催化还原具有很大的挑战性,既具有高对映选择性又具有宽广底物普适性的催化剂很少。 本文分别由手性脯氨酸、哌啶酸、哌嗪酸以及氨基醇出发,设计和合成了一系列结构新颖、合成简便、性能优良的酰胺类有机小分子路易斯碱催化剂,以廉价的三氯氢硅为氢源,用这些催化剂催化亚胺不对称还原,得到了非常优良的收率、对映选择性和前所未有的底物普适性。 文献研究认为,除N-甲酰基外,分子内含有芳香酰胺是能催化亚胺还原的有机小分子路易斯碱催化剂具有较高对映选择性的必要条件,我们研究发现N-甲酰脯氨酸非芳香酰胺类催化剂(包括结构简单的C2-对称型脯氨酰胺类催化剂),对N-芳基酮亚胺的还原可获得达86%的对映选择性,远高于同类芳香酰胺催化剂,证明N-甲酰非芳香酰胺类路易斯碱催化剂在亚胺还原中也能得到高的对映选择性。 在进一步研究中,我们以手性六元哌啶酸为模板,分别设计合成了N-甲酰哌啶酸芳香酰胺和N-甲酰哌啶酸非芳香酰胺两类催化剂,其中芳香酰胺催化剂(S)-N-(甲酰基)哌啶-2-酸-1-萘基酰胺(28)和非芳香酰胺催化剂(2S,1'S,2'S)-N-(甲酰基)-哌啶-2-酸(1',2'-二苯基-2'-乙酰氧基-乙基)酰胺(30)显示出非常优良的催化活性和对映选择性,对于N-芳基芳香酮亚胺的还原,无论是缺电子体系还是富电子体系,绝大部分都能得到很高的收率(达98%)和对映选择性(达96% ee)。特别值得一提的是30对一些脂肪族亚胺和α,β-不饱和亚胺的还原,虽然底物为E/Z混合物,也能得到很高的收率(达93%)和对映选择性(达95% ee),这样的底物普适性在过渡金属催化体系中也是前所未有的。 现有的催化亚胺还原的高对映选择性催化体系大多仅适用于甲基酮亚胺底物,对位阻较大的非甲基酮亚胺很难获得好的结果。我们以L-哌嗪酸为模板设计和合成出的(S)-N-(甲酰基)-哌嗪-2-酸-4-对叔丁基苯磺酰基-苯基酰胺不但对N-芳基甲基酮亚胺有很好的对映选择性(达90% ee),而且对于大位阻的N-芳基非甲基酮亚胺有更好的对映选择性(达97% ee)。该催化剂与30在底物普适性方面具有很好的互补性。 我们还设计了基于1,2-二苯基氨基醇为模板的新型N-甲酰路易斯碱有机小分子催化剂,首次发现结构简单的N-甲酰(1S,2R)二苯基氨基醇能较好的催化N-芳基酮亚胺,最高可以得到82%的对映选择性。 针对我们设计合成的结构新颖、性能优良的催化剂,我们对催化机理进行了探讨和解释,提出了几个假想的机理模型。 Catalytic enantioselective reduction of imines represents one of the most straightforward and efficient methods for the preparation of chiral amines, an important intermediate for the synthesis of natural products and chiral drugs. However, asymmetric reduction of imines remains a big challenge and highly enantioselective catalysts with a satisfactorily broad substrate scope remain elusive. Factors contributing to the difficulty of this transformation include the weak reactivity of the C=N bond and the existence of inseparable mixtures of E/Z isomers. Starting from chiral proline, pipecolinic acid, piperazine-2-carboxylic acid and 1,2-diphenyl amino alcohol, a series of structurally simple and easily prepared amides were developed as highly effective Lewis basic organocatalysts for the asymmetric reduction of imines with trichlorosilane as the reducing agent, which promoted the reduction of N-aryl imines with high yields and excellent enantioselectivities with an unprecedented substrate spectrum. In the literature, it has been believed that besides the N-formyl group, the existence of an arylamido group in the structure of Lewis basic organocatalysts is a prerequisite for obtaining high enantioselectivity in the catalytic reduction of imines. However, we found that the N-formyl-L-prolinamides bearing non-arylamido groups, including structurally simple C2-symmetric tetraamides, could also work as effective Lewis basic catalysts to promote the asymmetric reduction of ketimines with high enantioselectivities (up to 86% ee), which are even more enantioselective than the analogues with arylamido groups. In further studies, we developed novel N-formamides with arylamido groups and non-arylmido groups as Lewis basic catalysts using the commercially available L-pipecolinic acid as the template. The catalysts (S)-1-formyl-piperidine-2-carboxylic acid naphthylamide 28 and (2S,1'S,2'S)-acetic acid 2-[(1-formyl-piperidine-2-carbonyl) -amino]-1,2-diphenyl-ethyl ester 30 were found to promote the reduction of a broad range of N-aryl imines in high yields (up to 98%) and excellent ee values (up to 96%) under mild conditions. Furthermore, catalyst 30 also exhibited high enantioselectivities (up to 95% ee) for the challenging aliphatic ketimines and α,β-unsaturated imines despite that these imines exist as E/Z isomeric mixtures. The broad substrate spectrum of this catalyst is unprecedented in catalytic asymmetric imine reduction, including transition-metal-catalyzed hydrogenation processes. Many of the currently available highly enantioselective catalytic systems only tolerate methyl ketimines, which gave poor results for bulkier non-methyl ketimines. Starting from L-piperazine-2-carboxylic acid, we developed (S)-4-(4-tert- butylbenzenesulfonyl)-1-formyl-N-phenyl-piperazine-2-carboxamide as highly enantioselective Lewis basic catalysts for the hydrosilylation of both methyl ketimines and steric bulky non-methyl ketimines. Moreover, higher enantioselectivities were obtained for non-methyl ketimines than methyl ketimines under the catalysis of this catalyst. Thus, this catalyst system complements with 30 in terms of the substrate scope. We also found that easily accessible (1R,2S)-N-formyl-1,2-diphenyl- 2-aminoethanol worked as an effective Lewis basic catalyst in the enantioselective hydrosilylation of ketimines, affording high enantioselectivities (up to 82% ee) for a broad range of ketimines. To rationalize the high efficiencies of the structurally novel catalysts we developed, several catalytic models have been proposed. |
| 语种 | 中文 |
| 学科主题 | 有机化学 |
| 公开日期 | 2011-05-09 ; 2011-05-18 |
| 页码 | 197 |
| 内容类型 | 学位论文 |
| 源URL | [http://210.75.237.14/handle/351003/2451]  |
| 专题 | 成都生物研究所_天然产物研究 |
| 推荐引用方式 GB/T 7714 | 王周玉. 手性有机小分子路易斯碱催化剂的设计、合成及其在亚胺不对称还原中的应用, Design and Synthesis of Chiral Lewis Basic Organocatalysts for Asymmetric Reduction of Imines[D]. 2007. |
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