Takeru Furuya scite author profile

Preface Recent advances in catalysis have made the incorporation of fluorine into complex organic molecules easier than ever before, but selective, general, and practical fluorination reactions remain sought after. Fluorination of molecules often imparts desirable properties such as metabolic and thermal stability, and fluorinated molecules are therefore frequently used as pharmaceuticals or materials. Even with the latest advances in chemistry, carbon–fluorine bond formation in complex molecules is still a significant challenge. Within the last few years, new reactions to make organofluorides have emerged and exemplify how to overcome some of the intricate challenges associated with fluorination.

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A Fluoride-Derived Electrophilic Late-Stage Fluorination Reagent for PET Imaging

Lee

Kamlet

Powers

et al. 2011

Science

390

257

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Mechanism of C−F Reductive Elimination from Palladium(IV) Fluorides

et al. 2010

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The first systematic mechanism study of C–F reductive elimination from a transition metal complex is described. C–F bond formation from three different Pd(IV) fluoride complexes was mechanistically evaluated. The experimental data suggest that reductive elimination occurs from cationic Pd(IV) fluoride complexes via a dissociative mechanism. The ancillary pyridyl-sulfonamide ligand plays a crucial role for C–F reductive elimination, likely due to a κ3 coordination mode, in which an oxygen atom of the sulfonyl group coordinates to Pd. The pyridyl-sulfonamide can support Pd(IV) and has the appropriate geometry and electronic structure to induce reductive elimination.

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Takeru Furuya

Catalysis for fluorination and trifluoromethylation

A Fluoride-Derived Electrophilic Late-Stage Fluorination Reagent for PET Imaging

Mechanism of C−F Reductive Elimination from Palladium(IV) Fluorides

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