铱催化不对称转移加氢反应,轻松获得具有光学活性的二氢二苯并融合氮杂环庚烷

IF 4.4 2区 化学 Q2 CHEMISTRY, APPLIED
Lijin Xu, Zhenni He, Ji Yang, Xiaohan Li, Wei Huang, Kai Liu, Qian Shi
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引用次数: 0

摘要

使用手性二胺铱催化剂和 HCO2H/NEt3 作为氢源,完成了各种二苯并融合氮杂卓的不对称转移加氢反应,其中包括 5H-二苯并[b,e][1,4]二氮杂卓、二苯并[b,f][1,4]硫氮杂卓和 11H-二苯并[b,e]氮杂卓。制备了一系列手性 10,11-二氢-5H-二苯并[b,e][1,4]二氮杂卓、10,11-二氢二苯并[b,f][1,4]硫氮杂卓和 6,11-二氢-5H-二苯并[b,e]氮杂卓,收率为 82-94%,ee 为 82-99%。多种取代的底物都适合进行这种转化,而且可以容许多种官能团的存在。通过对催化剂、添加剂和氢源的明智选择,实现了对映体的控制。在不损失反应活性和光学纯度的情况下,通过克级反应以及对产物的进一步转化,探索了该反应的合成潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Iridium-Catalyzed Asymmetric Transfer Hydrogenation for Facile Access to Optically Active Dihydrodibenzo-Fused Azepines
The asymmetric transfer hydrogenation of various dibenzo-fused azepines including 5H-dibenzo[b,e][1,4]diazepines, dibenzo[b,f][1,4]thiazepines and 11H-dibenzo[b,e]azepines using chiral iridium diamine catalysts and HCO2H/NEt3 as the hydrogen source has been accomplished. A rang of chiral 10,11-dihydro-5H-dibenzo[b,e][1,4]diazepines, 10,11-dihydrodibenzo[b,f][1,4]thiazepine and 6,11-dihydro-5H-dibenzo[b,e]azepines have been prepared in 82-94% yields with 82-99% ee. Diversely substituted substrates are suitable for this transformation, and a number of functional groups are tolerated. The enantiocontrol is achieved via judicious choice of catalyst, additive and hydrogen source. The synthetic potential of this reaction is explored through gram-scale reactions without loss of reactivity and optical purity and further transformations on products.
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来源期刊
Advanced Synthesis & Catalysis
Advanced Synthesis & Catalysis 化学-应用化学
CiteScore
9.40
自引率
7.40%
发文量
447
审稿时长
1.8 months
期刊介绍: Advanced Synthesis & Catalysis (ASC) is the leading primary journal in organic, organometallic, and applied chemistry. The high impact of ASC can be attributed to the unique focus of the journal, which publishes exciting new results from academic and industrial labs on efficient, practical, and environmentally friendly organic synthesis. While homogeneous, heterogeneous, organic, and enzyme catalysis are key technologies to achieve green synthesis, significant contributions to the same goal by synthesis design, reaction techniques, flow chemistry, and continuous processing, multiphase catalysis, green solvents, catalyst immobilization, and recycling, separation science, and process development are also featured in ASC. The Aims and Scope can be found in the Notice to Authors or on the first page of the table of contents in every issue.
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