402-43-7Relevant articles and documents
Preparation method of perfluoroalkylated aryl compound
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Paragraph 0100-0103, (2021/11/14)
The present invention provides a process for the preparation of a perfluoroalkylated aryl compound which comprises reacting an aryl compound with a perfluoroalkylsulfinate in the presence of an iron salt and hydrogen peroxide. To the method provided by the invention, perfluoroalkyl sulfinate is used as an alkylating agent, iron salt is used as a catalyst, hydrogen peroxide is used as an initiator, and the reaction time is short. The method has the characteristics of high yield, convenient operation, high safety and the like, and has wide application in the fields of drug synthesis, biological probes, fluorescent materials and the like.
Synthesis of ArCF2X and [18F]Ar-CF3via Cleavage of the Trifluoromethylsulfonyl Group
Gao, Xinyan,Gong, Kehao,Han, Junbin,Wang, Juan,Wang, Mingwei,Xu, Bo,Yang, Ren-Yin,Zeng, Xiaojun
, (2021/12/17)
A versatile synthesis of ArCF2X and [18F]Ar-CF3 type compounds from readily available ArCF2SO2CF3 has been developed. Diverse nucleophiles, including weak nucleophiles such as halides (18F-, Cl-, Br-, and I-), RSH, and ROH, could react with ArCF2SO2CF3 efficiently to give the corresponding difluoromethylene products. The control experiments and the Hammett plot indicated that the reaction might proceed through a difluorocarbocation intermediate generated from the steric hindrance-assisted cleavage of the trifluoromethylsulfonyl group.
Base-catalyzed aryl halide isomerization enables the 4-selective substitution of 3-bromopyridines
Bandar, Jeffrey S.,Puleo, Thomas R.
, p. 10517 - 10522 (2020/10/18)
The base-catalyzed isomerization of simple aryl halides is presented and utilized to achieve the 4-selective etherification, hydroxylation and amination of 3-bromopyridines. Mechanistic studies support isomerization of 3-bromopyridines to 4-bromopyridines proceedsviapyridyne intermediates and that 4-substitution selectivity is driven by a facile aromatic substitution reaction. Useful features of a tandem aryl halide isomerization/selective interception approach to aromatic functionalization are demonstrated. Example benefits include the use of readily available and stable 3-bromopyridines in place of less available and stable 4-halogenated congeners and the ability to converge mixtures of 3- and 5-bromopyridines to a single 4-substituted product.