2023
DOI: 10.1002/chem.202300361
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De‐Risking S‐F Bond Formation: A Gas Cylinder‐Free Strategy to Access S(IV) and S(VI) Fluorinated Compounds**

Abstract: The sulfur-fluorine partnership occupies a privileged position in fluorine chemistry given the functional versatility that it imparts to organic structures. Despite this, available methodologies to forge S-F bonds are limited compared to C-F bond formation. Here, we describe a synthetic protocol that selectively enables the oxidative halogenation of aliphatic, aromatic, and heteroaromatic thiols to their corresponding SF4Cl, SO2F and SF3 derivatives. Selective oxidation of thiols to either S(IV)-F or S(VI)-F c… Show more

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Cited by 10 publications
(1 citation statement)
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“…This urged us to seek an alternative procedure for ex situ generation of SF 5 Cl relying solely on stable and commercially available precursors. Based on our recent oxidative halogenation work and further confirmed in a 2016 report by Shibata and co-workers, we realized that 4,4′-dipyridyl disulfide (DPDS, 7 ) was a potential candidate precursor for ex situ SF 5 Cl generation. This was based on the finding that DPDS, in a chlorotetrafluorosulfanylation attempt with Cl 2 and KF, did not yield 4-(chlorotetrafluoro-λ 6 -sulfanyl)­pyridine ( 8 ) at the end of the reaction.…”
supporting
confidence: 57%
“…This urged us to seek an alternative procedure for ex situ generation of SF 5 Cl relying solely on stable and commercially available precursors. Based on our recent oxidative halogenation work and further confirmed in a 2016 report by Shibata and co-workers, we realized that 4,4′-dipyridyl disulfide (DPDS, 7 ) was a potential candidate precursor for ex situ SF 5 Cl generation. This was based on the finding that DPDS, in a chlorotetrafluorosulfanylation attempt with Cl 2 and KF, did not yield 4-(chlorotetrafluoro-λ 6 -sulfanyl)­pyridine ( 8 ) at the end of the reaction.…”
supporting
confidence: 57%