2020
DOI: 10.1002/adsc.202001381
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Photoredox Fluoroalkylation of Hydrazones in Neutral and Reductive Modes

Abstract: Visible light promoted fluoroalkylation of hydrazones using 4‐perfluoropyridine sulfides as fluoroalkyl radical sources is described. The process can proceed in neutral and reductive modes delivering either hydrazones or hydrazines, respectively, depending on structure of starting substrates and reaction conditions. For the reductive process, ascorbic acid is used as a terminal reductant, which recycles the photocatalyst and serves as a source of hydrogen towards nitrogen‐centered radicals.

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Cited by 23 publications
(9 citation statements)
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“…However, the presence of a second nitrogen decreases the electrophilic character of their C=N bond, resulting in decreased efficiency of addition of nucleophilic radicals. In contrast, reactions of hydrazones with fluorinated radicals are well developed, with particular emphasis on N,N ‐dialkyl‐substituted hydrazones [33–38] …”
Section: Methodsmentioning
confidence: 99%
“…However, the presence of a second nitrogen decreases the electrophilic character of their C=N bond, resulting in decreased efficiency of addition of nucleophilic radicals. In contrast, reactions of hydrazones with fluorinated radicals are well developed, with particular emphasis on N,N ‐dialkyl‐substituted hydrazones [33–38] …”
Section: Methodsmentioning
confidence: 99%
“…The primary products were not isolated, but were converted into 3-fluorofurans upon brief treatment of the reaction mixture with acid. [61] Compounds 9 containing tetrafluoropyridine fragment (PyfS) constitute another class of reagents, which were successfully employed in photoredox reactions based on cleavage of the CÀ S bond [63][64][65][66] (Scheme 12). They are obtained by thiol-ene addition to gem-difluorostyrenes catalyzed by 9phenylacrydine under irradiation.…”
Section: Silyl Enol Ethersmentioning
confidence: 99%
“…[28][29][30][31] On the other hand, the desulfurization of the second class of thioethers (D or G) can be achieved by initial SET reduction of thioethers containing either tetra-fluoropyridine or thiazolium cores (Scheme 8B). [32][33][34][35][36][37][38][39][40] The splitting of the CÀ S bond in the radicals E or H then leads to the carbon radicals and either a stabilized thiolate F or the 3methylthiazolidine-2-thione J byproduct.…”
Section: Desulfurization Of Thioethersmentioning
confidence: 99%