使用实用助剂实现醇的选择性C(sp³)-H和C(sp²)-H氟化反应。

Selective C(sp )-H and C(sp )-H Fluorination of Alcohols Using Practical Auxiliaries.

作者信息

Mao Yang-Jie, Lou Shao-Jie, Hao Hong-Yan, Xu Dan-Qian

机构信息

College of Chemical Engineering Zhejiang University of Technology, Catalytic Hydrogenation Research Center, State Key Laboratory Breeding Base of Green Chemistry-Synthesis Technology, 18 Chaowang Road, Hangzhou, China.

出版信息

Angew Chem Int Ed Engl. 2018 Oct 22;57(43):14085-14089. doi: 10.1002/anie.201808021. Epub 2018 Oct 4.

DOI:10.1002/anie.201808021

PMID:30161283

Abstract

Selective introduction of fluorine into molecules by the cleavage of inert C-H bonds is of central academic and synthetic interest, yet remains challenging. Given the central role of alcohols in organic chemistry as the most ubiquitous building blocks, a versatile and selective C(sp )-H and C(sp )-H fluorination of simple alcohols, enabled by novel designed exo-directing groups, is described. C(sp )-H bond fluorination was achieved by using a simple acetone oxime as auxiliary, whereas a new, modular and easily accessible bidentate auxiliary was developed for the efficient and site-selective fluorination of various primary methyl, methylene, and benzylic C(sp )-H bonds. Fluorinated alcohols can readily be accessed by the removal of auxiliaries, and significantly expands the synthetic prospect of the present procedure.

摘要

通过惰性C-H键的裂解将氟选择性引入分子中具有核心的学术和合成意义，但仍然具有挑战性。鉴于醇在有机化学中作为最普遍存在的结构单元的核心作用，本文描述了一种通过新型设计的外导向基团实现的简单醇的通用且选择性的C(sp³)-H和C(sp²)-H氟化反应。使用简单的丙酮肟作为助剂实现了C(sp³)-H键氟化，同时开发了一种新型、模块化且易于获得的双齿助剂，用于各种伯甲基、亚甲基和苄基C(sp³)-H键的高效和位点选择性氟化。通过去除助剂可以很容易地得到氟化醇，这显著扩展了本方法的合成前景。

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使用实用助剂实现醇的选择性C(sp³)-H和C(sp²)-H氟化反应。

Selective C(sp )-H and C(sp )-H Fluorination of Alcohols Using Practical Auxiliaries.

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