AI Article Synopsis
- The research focuses on creating new fluorine-containing compounds with efficient synthesis methods, addressing a current challenge in chemistry.
- A novel La/I/DIBAL-Cl system enables the selective addition of various aldehydes to trifluoromethylated benzofulvenes through a targeted C-F bond activation process, leading to valuable homodienyl alcohols.
- The study notes unique reactions with specific electron-poor aldehydes that result in unexpected substitution of the CF group, a phenomenon attributed to the properties of the lanthanum metal used.
Article Abstract
The development of new fluorine-containing building blocks and their efficient synthetic access is currently a challenging research field. Herein, the highly regio- and stereoselective addition of a large range of aldehydes onto trifluoromethylated benzofulvenes was achieved using a simple La/I /DIBAL-Cl system via a selective C-F bond activation process. This versatile methodology provided homodienyl alcohols bearing a terminal CF -alkene with potential further applications, as shown by the dehydration to the first benzofulvenes carrying a difluorovinyl group. In addition, for certain electron-poor aldehydes, unprecedented ipso substitution of the CF group in a diene was observed, which, according to DFT studies, is related to the presence of the large, Lewis-acidic lanthanum metal.
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| http://dx.doi.org/10.1002/chem.202005239 | DOI Listing |
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