通过在流动反应中控制反应时间来实现[1,4]、[1,5]和[1,6]阴离子 Fries 型重排反应。

Harnessing [1,4], [1,5], and [1,6] Anionic Fries-type Rearrangements by Reaction-Time Control in Flow.

机构信息

Department of Synthetic Chemistry and Biological Chemistry, Graduate School of Engineering, Kyoto University, Nishikyo-ku, Kyoto, 615-8510, Japan.

出版信息

Angew Chem Int Ed Engl. 2017 Jun 26;56(27):7863-7866. doi: 10.1002/anie.201704006. Epub 2017 Jun 1.

DOI:10.1002/anie.201704006

PMID:28510344

Abstract

A series of anionic Fries-type rearrangements of carbamoyl-substituted aryllithium intermediates were controlled by using flow microreactor systems. For the [1,4] and [1,5] rearrangements, the aryllithium intermediate formed before carbamoyl migration and the lithium alkoxide formed after carbamoyl migration can be selectively subjected to subsequent reactions with electrophiles by precisely controlling the residence time and temperature (-25 to -50 °C). In contrast, the [1,6] rearrangement is rather slow even at -25 °C. The absence of crossover products indicates the intramolecular nature of the carbamoyl group migration.

摘要

采用流动微反应系统控制了取代的芳基锂中间体的一系列的负离子 Fries 重排反应。对于[1,4]和[1,5]重排反应，可以通过精确控制停留时间和温度（-25 至-50°C），有选择地使在氨基甲酰迁移之前形成的芳基锂中间体和在氨基甲酰迁移之后形成的锂醇盐与亲电试剂进行后续反应。相比之下，即使在-25°C，[1,6]重排反应也相当缓慢。没有交叉产物表明氨基甲酰基迁移是分子内的。

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通过在流动反应中控制反应时间来实现[1,4]、[1,5]和[1,6]阴离子 Fries 型重排反应。

Harnessing [1,4], [1,5], and [1,6] Anionic Fries-type Rearrangements by Reaction-Time Control in Flow.

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