The ever-growing number of fluorinated compounds in medicinal and agrochemical applications has led to a remarkable positive emulation in research. The last few years have been the witness of several advances in the search of more effective and user-friendlier methods for the introduction of fluorine as substituent or of fluorinated groups on various structures. In particular, the synthesis of trifluoromethyl ethers and thioethers is receiving increasing attention due to the peculiar properties of the OCF3 and SCF3 groups. This review will cover the different methods for the preparation of trifluoromethyl ethers and thioethers, and will emphasize on the most recent developments, including the use of catalytic methods or of methodologies for trifluoromethylation or trifluoromethanesulfanylation.
SummaryIn the last few years, transition metal-mediated reactions have joined the toolbox of chemists working in the field of fluorination for Life-Science oriented research. The successful execution of transition metal-catalyzed carbon–fluorine bond formation has become a landmark achievement in fluorine chemistry. This rapidly growing research field has been the subject of some excellent reviews. Our approach focuses exclusively on transition metal-catalyzed reactions that allow the introduction of –CFH2, –CF2H, –CnF2
n
+1 and –SCF3 groups onto sp² carbon atoms. Transformations are discussed according to the reaction-type and the metal employed. The review will not extend to conventional non-transition metal methods to these fluorinated groups.
The asymmetric protonation of silyl enolates derived from tetralone, benzosuberone, and cyclohexanone has been successfully achieved by using simple and original betaine catalysts derived from Cinchona alkaloids (quinine and quinidine series) to afford the desired α-substituted ketones in high yields and moderate enantioselectivities. The ease of imple-[a] Normandie University, COBRA, UMR 6014 & FR3038,
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