Recent advances in photochemical and electrochemical strategies for the synthesis of sulfonyl fluorides

Zheng, Yu; Lu, Wenguang; Ma, Tianting; Huang, Shenlin

doi:10.1039/d3qo01610b

Cited by 19 publications

(6 citation statements)

References 144 publications

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“…On the basis of the above-described results and previous reports, 11–15,19 two plausible mechanisms have been proposed (Fig. 1).…”

Section: Resultssupporting

confidence: 69%

“…4 Aryl sulfonyl fluorides are typically synthesized by chloride–fluoride exchange reactions of the corresponding arenesulfonyl chlorides, 5 oxidative fluorination of sulfur-containing substrates (such as sodium sulfinic, 6 thiols, 7 sulfonyl hydrazides, 8 disulfides, 7 b ,9 and sulfonates or sulfonic acids 10 ) or by converting various prefunctionalized substrates such as aryl (pseudo)halides, 11 aryl boronic acids, 12 aryl diazonium salts, 13 and others. 14 Despite these advances, the development of practical, mild methods for accessing arenesulfonyl fluorides from inexpensive, widely available industrial feedstocks remains highly desirable.…”

Section: Introductionmentioning

confidence: 99%

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Direct electrochemical synthesis of arenesulfonyl fluorides from nitroarenes: a dramatic ionic liquid effect

Kong,

Liu,

Chen

et al. 2024

Green Chem.

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“…On the basis of the above-described results and previous reports, 11–15,19 two plausible mechanisms have been proposed (Fig. 1).…”

Section: Resultssupporting

confidence: 69%

Section: Introductionmentioning

confidence: 99%

Direct electrochemical synthesis of arenesulfonyl fluorides from nitroarenes: a dramatic ionic liquid effect

Kong,

Liu,

Chen

et al. 2024

Green Chem.

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“…As one of the key elements in drug discovery, agrochemicals, pharmaceuticals, materials, and click chemistry (such as sulfonyl fluorides), fluorine has become increasingly important in recent decades, and has promoted the development of many new methods for the efficient synthesis of versatile fluoro-containing molecules, especially in a site-selective manner . While many successful methods for constructing the C–F bond often rely on the use of nucleophilic or electrophilic fluorination strategies, the transition metal-catalyzed radical fluoro atom transfer (FAT) process to suitable carbon-based radicals has emerged as a powerful way to connect a fluoro atom with a carbon chain. Some metals such as Mn, Ag, Fe, Pd, Cu and Co have been reported for this purpose (Figure A).…”

Section: Introductionmentioning

confidence: 99%

Copper-Mediated Radical Fluorine-Atom Transfer to Sulfonyl Radical: A Dramatic 4-Methoxypyridine 1-Oxide Ligand Effect

Zhang,

Sun,

et al. 2024

ACS Catal.

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Although the transition metal-catalyzed radical fluorine atom transfer (FAT) strategy has emerged as a powerful tool for the construction of C–F bonds, to our knowledge, this approach has rarely been applied to the formation of S–F bonds. Here, we report that 4-methoxypyridine 1-oxide can serve as an inexpensive and simple yet effective ligand and thus promote the transformation of the copper-mediated challengeable radical FAT to sulfonyl radicals, paving the way for the assembly of an FSO2 group. Based on this concept, three Cu(I)-catalyzed protocols involving site-selective intra- and intermolecular fluorosulfonylation of inert C(sp3)–H bonds and 1,2-aminofluorosulfonylation of inactivated alkenes have been developed, enabling the preparation of C(sp3)-rich aliphatic sulfonyl fluorides that cannot be easily synthesized by known methods. These practical and operationally simple methods result in high functional group tolerance under mild conditions and can be applied to the modification of bioactive derivatives and preparation of highly valued molecules. Detailed mechanistic studies indicate the unique role of the 4-methoxypyridine 1-oxide ligand in facilitating the formation of such rare radical FATs via an outer-sphere pathway.

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“…This interplay between the reactivity and stability of these chemical entities makes them well-suited for a wide range of biochemical and material-based applications such as irreversible enzyme inhibitors, ,, 18 F-radiolabeling agents, − and deoxy-fluorinating agents. − Furthermore, sulfonyl fluorides have been employed to modify polymers; enhance their solubility, stability, and reactivity; and develop novel materials for organic electronics (Scheme A). , The synthesis of sulfonyl fluorides is of paramount importance given their demonstrated value. It is imperative to develop an efficient synthetic route that employs readily available, abundant, and stable starting materials while circumventing the use of hazardous, toxic, or expensive reagents. − Various synthetic approaches have been introduced starting from the fluorosulfonylation of aromatic arenes using fluorosulfonic acid, dating back almost a century . The development of this approach has been ongoing, with different variations in reagents (gaseous sulfuryl fluoride or fluorosulfonic acid anhydride) and substrates (Grignard reagents or lithiated alkynes). − …”

Section: Introductionmentioning

confidence: 99%

Green and Efficient Protocols for the Synthesis of Sulfonyl Fluorides Using Potassium Fluoride as the Sole Fluorine Source

Yamahara,

Salem,

Kawai

et al. 2024

ACS Sustainable Chem. Eng.

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Sulfonyl fluorides are highly versatile organic compounds with diverse applications in click chemistry, biochemistry, and materials science. However, traditional synthetic approaches such as halogen exchange of sulfonyl chlorides using potassium bifluoride (KHF 2 ) face challenges for large-scale production due to KHF 2 's corrosiveness and reactivity with glassware. Moreover, the instability and limited availability of sulfonyl chlorides as substrates further complicate their synthesis. In this study, we introduce two efficient and environmentally friendly protocols for sulfonyl fluoride synthesis: a stepwise method and a one-pot process. These protocols use stable substrates such as disulfides or thiols, with potassium fluoride as the sole fluorine source and NaOCl•5H 2 O as the green oxidant. A gram-scale synthesis demonstrates the scalability and efficiency of these protocols. Furthermore, we improved the Davies and Dick method to produce sulfonyl fluorides at ambient temperature in a short time frame. Finally, we showcase various derivatives and transformations of sulfonyl fluorides, highlighting their advantageous reactivity and stability.

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Recent advances in photochemical and electrochemical strategies for the synthesis of sulfonyl fluorides

Abstract: This review summarizes the latest achievements in photochemical and electrochemical strategies for the synthesis of sulfonyl fluorides and focuses on the novel features and proposed mechanisms.

Cited by 19 publications

References 144 publications

Direct electrochemical synthesis of arenesulfonyl fluorides from nitroarenes: a dramatic ionic liquid effect

Direct electrochemical synthesis of arenesulfonyl fluorides from nitroarenes: a dramatic ionic liquid effect

Copper-Mediated Radical Fluorine-Atom Transfer to Sulfonyl Radical: A Dramatic 4-Methoxypyridine 1-Oxide Ligand Effect

Green and Efficient Protocols for the Synthesis of Sulfonyl Fluorides Using Potassium Fluoride as the Sole Fluorine Source

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