在亲核氟烷基化化学中解锁偕二氟卤代烷烃：通过流动微反应器实现的氟化卡宾的生成和捕获。

Unlocking geminal fluorohaloalkanes in nucleophilic fluoroalkylation chemistry: generation and trapping of lithiumfluorocarbenoids enabled by flow microreactors.

机构信息

Flow Chemistry and Microreactor Technology FLAME-Lab, Department of Pharmacy - Drug Sciences, University of Bari "A. Moro", Bari, 70125, Italy.

Department of Discovery, Dompé Farmaceutici S.p.A., Via Campo di Pile, L'Aquila, 67100, Italy.

出版信息

Chem Commun (Camb). 2023 Jan 31;59(10):1373-1376. doi: 10.1039/d2cc06717j.

DOI:10.1039/d2cc06717j

PMID:36649092

Abstract

A direct nucleophilic monofluoroalkylation strategy leveraging on lithium fluorocarbenoids has been developed. Flow microreactor technology allows capitalization of the synthetic potential of these scarcely explored short-lived intermediates - namely 1-fluoro-2-phenylethyllithium, 1-fluoro-3-phenylpropyllithium, and 1-fluorononyllithium - generated through lithium/iodine exchange reaction. This robust protocol was employed to prepare new fluorinated products, adopting various classes of electrophiles. The inherent advantages of microreactor technology contribute to rendering this approach a new valuable tool for direct fluoroalkylation chemistry.

摘要

一种利用锂碳氟化物的直接亲核单氟烷基化策略已经被开发出来。流动微反应器技术可以利用这些探索甚少的短寿命中间体的合成潜力，即通过锂/碘交换反应生成的 1-氟-2-苯乙基锂、1-氟-3-苯基丙基锂和 1-氟壬基锂。该稳健的方案被采用来制备通过各种类型的亲电试剂得到的新型氟化产物。微反应器技术的固有优势有助于使该方法成为直接氟烷基化化学的一种新的有价值的工具。

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在亲核氟烷基化化学中解锁偕二氟卤代烷烃：通过流动微反应器实现的氟化卡宾的生成和捕获。

Unlocking geminal fluorohaloalkanes in nucleophilic fluoroalkylation chemistry: generation and trapping of lithiumfluorocarbenoids enabled by flow microreactors.

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