2021
DOI: 10.24820/ark.5550190.p011.493
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CO2-activated NaClO-5H2O enabled smooth oxygen transfer to iodoarene: a highly practical synthesis of iodosylarene

Abstract: A safe, rapid, and environmentally friendly synthesis of iodosylarene (ArIO) has been developed using NaClO under a carbon dioxide (CO2) atmosphere. Exposure of iodoarene to NaClO-5H2O in acetonitrile under CO2 (1 atm) resulted in the clean formation of ArIO within 10 minutes in high yield. The absence of a base in this method enables the direct use of in-situ-generated iodosylarene not only for a variety of oxidative transformations (synthesis of sulfilimine, pentavalent bismuth, benzyne adduct, etc.), but al… Show more

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Cited by 6 publications
(5 citation statements)
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“…This green approach retains all the advantages of existing protocols while adding a practical setup with high sustainability, as NaOCl·5H 2 O is an environmentally benign oxidant, with its postoxidation product being table salt (NaCl) . Based on our earlier investigations and prior studies by Miyamato and Uchiyama, , the key role of CO 2 atmosphere in NaOCl oxidation reactions was demonstrated to suppress overoxidation and generate the active species (hypochlorous acid, HOCl) to afford the desired product within a few minutes. Hence, we conducted the reaction of disulfide 3a with NaOCl·5H 2 O in BTF under a CO 2 atmosphere in the presence of KF as a fluorine source.…”
Section: Resultsmentioning
confidence: 99%
“…This green approach retains all the advantages of existing protocols while adding a practical setup with high sustainability, as NaOCl·5H 2 O is an environmentally benign oxidant, with its postoxidation product being table salt (NaCl) . Based on our earlier investigations and prior studies by Miyamato and Uchiyama, , the key role of CO 2 atmosphere in NaOCl oxidation reactions was demonstrated to suppress overoxidation and generate the active species (hypochlorous acid, HOCl) to afford the desired product within a few minutes. Hence, we conducted the reaction of disulfide 3a with NaOCl·5H 2 O in BTF under a CO 2 atmosphere in the presence of KF as a fluorine source.…”
Section: Resultsmentioning
confidence: 99%
“…Iodosoarenes 5b – f can be easily obtained by treating (dichloroiodo)arenes [ 41 ] or (diacetoxyiodo)arenes [ 42 ] with sodium hydroxide, by oxidation of iodoarenes with NaClO·5H 2 O [ 43 ], or by electrolysis [ 44 ]. The reaction scope of iodosoarenes 5b – f was explored with benzoic acid ( 6a ) and 1,3,5-trimethoxybenzene ( Scheme 5B ).…”
Section: Resultsmentioning
confidence: 99%
“…Although ArINTf can also be prepared by the ligand exchange of ArIF 2 with TMS 2 NTf (TMS = Me 3 Si) or by the imido transfer reaction of ArBrNTf to aryl iodides, it is difficult to deal with moisture-sensitive TMS 2 NTf and to synthesize ArBrNTf which requires BrF 3 with a risk of explosion. Very recently, Uchiyama and Miyamoto’s group reported an imidation reaction of thioanisole using PhINTf generated in situ from PhIO and TfNH 2 , albeit only one example was demonstrated . Furthermore, since ArINTf is rarely used in the organic reactions even including Uchiyama and Miyamoto’s example, ,, its reactivities are of interest.…”
mentioning
confidence: 99%
“…Very recently, Uchiyama and Miyamoto’s group reported an imidation reaction of thioanisole using PhINTf generated in situ from PhIO and TfNH 2 , albeit only one example was demonstrated . Furthermore, since ArINTf is rarely used in the organic reactions even including Uchiyama and Miyamoto’s example, ,, its reactivities are of interest. Herein, we report the additive-free and convenient preparation of ArINTf from ArIO and TfNH 2 , the imidation of phosphines, and the α-amidation of 1,3-dicarbonyl compounds using the in situ generated ArINTf.…”
mentioning
confidence: 99%