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Article Abstract
A simple, two-step procedure to convert α,α-difluorinated H-phosphinic acids into the corresponding H-phosphinothioates is described. The usefulness of these species is demonstrated by their transformation into difluorinated phosphinothioyl radicals and their addition onto alkenes. Additionally, sequential treatment of H-phosphinothioates by a strong base and a primary alkyl iodide constitutes an alternate route to the formation of the C-P bond. Both methods efficiently deliver difluorinated phosphinothioates. Similar reactions carried out with the fully oxygenated counterparts clearly indicate the superiority of the sulfur-based species and emphasize the crucial role played by sulfur in the construction of the second C-P bond. Oxidation easily transforms the thereby obtained phosphinothioates into the corresponding phosphinates. The whole strategy is applied to the stereoselective preparation of dinucleotide analogues featuring either a difluorophosphinothioyl or a difluorophosphinyl unit linking the two furanosyl rings.
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