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有机化学
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有机化学 ›› 2022, Vol. 42 ›› Issue (6): 1573-1585.DOI: 10.6023/cjoc202201033 上一篇    下一篇

研究专题

铜催化的直接型插烯反应研究进展

李晖a,*(), 殷亮b,*()   

  1. a 运城学院应用化学系 山西运城 044000
    b 中国科学院上海有机化学研究所 中国科学院天然产物有机合成化学重点实验室 上海 200032
  • 收稿日期:2022-01-20 修回日期:2022-02-25 发布日期:2022-03-08
  • 通讯作者: 李晖, 殷亮
  • 基金资助:
    山西省回国留学人员科研基金(2020-141); 山西省重点研发计划(201903D121105); 国家自然科学基金(21871287); 国家自然科学基金(21922114); 上海市科委基金(20JC1417100); 上海市科委基金(21XD1424800)

Research Progress of Copper-Catalyzed Direct Vinylogous Reactions

Hui Lia(), Liang Yinb()   

  1. a Department of Applied Chemistry, Yuncheng University, Yuncheng, Shanxi 044000
    b CAS Key Laboratory of Synthetic Chemistry of Natural Substances, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Shanghai 200032
  • Received:2022-01-20 Revised:2022-02-25 Published:2022-03-08
  • Contact: Hui Li, Liang Yin
  • Supported by:
    Grants from the Shanxi Scholarship Council of China(2020-141); Key R & D Program of Shanxi Province(201903D121105); National Natural Science Foundation of China(21871287); National Natural Science Foundation of China(21922114); Science and Technology Commission of Shanghai Municipality(20JC1417100); Science and Technology Commission of Shanghai Municipality(21XD1424800)

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插烯反应可以在母体官能团的γ-位(或更远的位置)引入一个新的官能团, 所生成的含有多个官能团的结构单元(尤其是手性结构单元)广泛存在于天然产物、生物活性分子和药物分子中, 并且可用作有机合成的中间体. 因而, 插烯反应(尤其是不对称插烯反应)近年来引起了化学家的广泛关注. 铜作为一种廉价过渡金属, 被广泛用作多种反应的金属催化剂(包括插烯反应). 我们对自己课题组在铜催化的直接型插烯反应领域的研究工作进行了总结. 根据亲电试剂的不同, 将研究分为三部分内容: 不对称插烯羟醛缩合反应、不对称插烯曼尼希反应和插烯氧化羟基化反应. 线性的α,β-或β,γ-不饱和化合物(包括酯、醛酮、酰胺、磷酸酯、砜和腈等)被用作插烯反应中亲核试剂的前体. 通过选用不同的铜催化剂, 反应过程中的区域选择性、非对映选择性和对映选择性得到了较好的控制.

关键词: 插烯反应, 铜催化, 不对称催化, aldol反应, Mannich反应, 氧化羟基化

Vinylogous reaction serves as an efficient tool to introduce a new functional group at the γ-position (or even more remote position) of the parent functional group. The produced highly functionalized structure motifs (especially chiral ones) are ubiquitous in natural products, biologically active compounds and pharmaceuticals. Moreover, they work as important synthetic intermediates in organic syntheses. Therefore, asymmetric vinylogous reaction has gained extensive attention in recent years. Our group is interested in the development of efficient direct vinylogous reactions by using copper catalysts with a focus on the catalytic asymmetric variants. Herein, the advances in our group in this field are reviewed. Both α,β-unsaturated and β,γ-unsaturated compounds (including esters, aldehydes, ketones, phosphonates, sulfones, and nitriles) are used as the vinylogous pronucleophiles. Aldehydes, ketones, imines, and molecular oxygen are employed as the electrophiles. This account is divided into three sections based on the varied electrophiles: asymmetric vinylogous aldol reaction, asymmetric vinylogous Mannich reaction and vinylogous aerobic oxidative hydroxylation. By using suitable copper catalysts, these reactions generally afforded the vinylogous products in good to excellent yields with good to excellent control of regio-, diastereo-, and enantioselectivities.

Key words: vinylogous reaction, copper catalysis, asymmetric catalysis, aldol reaction, Mannich reaction, oxidative hydroxylation