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氢氟酸盐和三价碘实现的β,γ-不饱和羧酸脱羧氟化反应

本站小编 Free考研考试/2022-02-14

摘要/Abstract



介绍了一种基于氧化脱羧过程的合成含氟烯丙基化合物的新方法.利用三乙胺三氢氟酸盐为氟化试剂,在碘苯二乙酸为氧化剂的条件下,对βγ-不饱和羧酸进行脱羧氟化,反应收率53%~76%.并且开发了一系列含氟烯丙基化合物的应用方法,包括环加成、氧化、还原以及通过活化烯烃实现的氟原子的取代反应(构建C―O,C―S,C―Se,C―N键).
关键词: 含氟烯丙基, 脱羧氟化, 三价碘, 氢氟酸盐
Allylic-substituted compounds serve as versatile building block or the primer for many metal-catalyzed reactions. The introduction of fluorine into a drug molecule will change its pharmacokinetic and pharmacodynamic properties. Therefore, a new method of allylic fluorination would uncover novel synthetic approaches towards highly valuable fluorinated compounds such as inhibitors or fluorine-containing polypropylene. To date, the most reported methods for the synthesis of allylic fluoride involve the use of p-nitrobenzoate or trimethylsilyl as leaving group, or cleavage of tertiary cyclopropyl silyl ethers. In the past decades, the research of fluorodecarboxylation has made great progress. The most reported fluorodecarboxylations involving XeF2, AgF or AgF2, Selectfluor, N-fluorodibenzenesulfonimide (NFSI) are often accompanied by the occurrence of oxidation or free radical reactions, which may destroy the terminal olefin structure. The use of the fluoride ion (fluoride salt or hydrofluoric acid) as the nucleophilic component presents a series of challenges, including the low intrinsic nucleophilicity which was demonstrated by its frequent use as an additive to modulate catalytic reactivity or product distribution. However, with the assistance of transition-metal catalyst or organocatalysts, fluoride ion often serve as fluorine source for fluorination of C(sp2)―H and C(sp3)―H. Hypervalent iodine reagents, which have ability to activate a C―C multiple bond, have been recognized as an alternative to noble metal catalyst. Inspired by the pioneering exploration, we sought the possibility of achieving allylic fluorination through simple protocol of fluorodecarboxylation with cheap nucleophilic fluorination reagents and mild oxidant. In this work, a new strategy is introduced for the synthesis of allylic fluorides via decarboxylative fluorination of β,γ-unsaturated carboxylic acids using PhI(OAc)2 and TEA·3HF. The best result was achieved by using 1.2 equiv. of PhI(OAc)2 and 5 equiv. of TEA·3HF in CH2Cl2 at 75 ℃ for 12 h, giving allylic fluoride 2a in 76% yield. The versatile synthetic utilities of the allylic fluorides were also developed through cycloaddition, oxidation, reduction, substitution involving formation of C―O, C―S, C―Se and C―N bond via activation of C―F bond.
Key words: allylic fluorides, decarboxylative fluorination, trivalent iodine, hydrogen fluoride-based reagent


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