Merging hypervalent iodine and sulfoximine chemistry: a new electrophilic trifluoromethylation reagent

Kalim, Jorna; Duhail, Thibaut; Le, Thanh-Nghi; Vanthuyne, Nicolas; Anselmi, Elsa; Togni, Antonio; Magnier, Emmanuel

doi:10.1039/c9sc04289j

Cited by 41 publications

(47 citation statements)

References 63 publications

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“…Taking heptane-Scheme2.Substrate scope of trifluoromethylation of aliphaticalcohols with 2.F or all substrates which are oils no heating was required, in cases where the starting material was as olid the reaction was conducted at the melting pointoft he compound if applicable or in solvent. Yields were based on reagent 2 and determined by 19 1,6-diol, we found the reagent to have 56:40 chemoselectivity for primary alcohols vs. secondary,f urther highlighting the good reactivity of 2 with secondary alcohols. The chemoselectivity for primary alcohols over tertiary gave 73:27 selectivity when using 3-(hydroxymethyl)-1-adamantol.…”

Section: Entrymentioning

confidence: 74%

“…Based on our previousf indings, [17] we expected the reagents to form a2 :1 reagent•Zna dduct, DFT calculations on the optimized adducts indicated that [ZnNTf 2 (2) 2 ]NTf 2 is thermodynamically favored compared to [ZnNTf 2 (1) 2 ]NTf 2 by 6kcal mol À1 in solution (see Supporting Information for details). To furtherv alidate the predicted stoichiometry, 19 FNMR experiments werec onducted, which showed ad ownfield shift of the I-CF 3 signal upon addition of increasing amounts of Zn(NTf 2 ) 2 as ar esult of the increasingi odonium character of 2. [23] Broadened signals were observedu pon addition of up to 0.50 equiv.o ft he zinc catalyst, with sharpeneds ignals observed thereafter suggesting the likelihood of a2:1 adduct.…”

Section: Entrymentioning

confidence: 99%

“…Scheme2.Substrate scope of trifluoromethylation of aliphaticalcohols with 2.F or all substrates which are oils no heating was required, in cases where the starting material was as olid the reaction was conducted at the melting pointoft he compound if applicable or in solvent. Yields were based on reagent 2 and determined by19 FNMR analysis. Yields of isolatedproducts are giveninparenthesis.…”

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confidence: 99%

“…Figure1. Selectivity of reagent 2 for primary,secondary, and tertiaryalcohols..Y ields were based on reagent 2 and determined by19 FNMR spectroscopy.…”

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confidence: 99%

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Direct Trifluoromethylation of Alcohols Using a Hypervalent Iodosulfoximine Reagent

Kalim

Duhail

Pietrasiak

et al. 2021

Chemistry A European J

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The direct trifluoromethylation of a variety of aliphatic alcohols using a hypervalent iodosulfoximine reagent afforded the corresponding ethers in moderate to good yields (14–72 %). Primary, secondary, and even tertiary alcohols, including examples derived from natural products, underwent this transformation in the presence of catalytic amounts of zinc bis(triflimide). Typical reaction conditions involved a neat mixture of 6.0 equivalents of the alcohol with 1.0 equivalent of the reagent, with the majority of reactions complete within 2 h with 2.5 mol % of the Lewis acid catalyst. Furthermore, experimental evidence was provided that the C−O bond‐forming process occurred via the coordination of the alcohol to the iodine atom and subsequent reductive elimination.

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Section: Entrymentioning

confidence: 74%

Section: Entrymentioning

confidence: 99%

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confidence: 99%

“…Figure1. Selectivity of reagent 2 for primary,secondary, and tertiaryalcohols..Y ields were based on reagent 2 and determined by19 FNMR spectroscopy.…”

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confidence: 99%

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Direct Trifluoromethylation of Alcohols Using a Hypervalent Iodosulfoximine Reagent

Kalim

Duhail

Pietrasiak

et al. 2021

Chemistry A European J

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“…69 However, it is comparable and only marginally shorter than the exocyclic HV I-O bond in the a related heterocylic compound with a hydroxy ligand, I-hydroxybenziodoxolone (2.00 Å), 70 and in the even more closely related benziodazole with methoxy ligands (2.23 Å). 54 More noteworthy is the length of the endocyclic I-N bond (2.37 Å), which was markedly longer than the I-N bonds in a bicyclic benziodazole with two HV I-N bonds (2.18 Å each), 71 I-chlorobenziodoazole (2.11 Å), 72 I-chlorosulfoximine (2.10 Å), I-trifluoromethylsulfoximine (2.28 Å), 73 and I-acetoxybenziodoazole (2.10 Å). 53 At the same time, the I-N bond in BIAT-OH 5 is shorter than I-N bonds with pronounced ionic character, e.g., in I-phenylbenziodazole (2.45), 74 and other compounds with pyridine coordinated to the HV iodine(III) atom (2.41-2.44 Å).…”

Section: Resultsmentioning

confidence: 99%

Heterocyclic Hypervalent Iodine(III) Compounds with Fused Benziodazole and Tetrazole Rings (I-Substituted Tetrazolo[1,5-b][1,2]Benziodazoles)

Kumar

et al. 2020

Preprint

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A series of heterocyclic hypervalent (HV) iodine(III) compounds containing fused tetrazole and benziodazole rings, i.e., derivatives of benziodazolotetrazole (BIAT) with various ligands (L) attached to the iodine atom (BIAT-L) were prepared and studied. They were characterized by 1H and 13C NMR spectroscopy, ESI-HRMS, and X-ray crystallography. The thermal stabilities of all BIAT derivatives (L= Cl, OH, OAc, OMe) were studied and the degradation patterns as well as the enthalpies of degradation were measured by thermal gravimetric analysis coupled with differential scanning calorimetry. The reaction of various alkenes with BIAT-Cl in the presence of Cu(OTf)2 at room temperature yielded chloro-tetrazolylated products. The oxidation of thioanisole with BIAT-Cl under various reaction conditions is also reported.

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Recent Progress in Synthetic Applications of Cyclic Hypervalent Iodine(III) Reagents

2023

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Hypervalent iodine compounds have found broad application in modern organic chemistry as reagents and catalysts. Cyclic hypervalent iodine reagents based on the benziodoxole heterocyclic system have higher stability compared to their acyclic analogues, which makes possible the preparation and safe handling of the reagents with special ligands such as azido, cyano, and trifluoromethyl groups. Numerous iodine‐substituted benziodoxole derivatives have been prepared and utilized as reagents for transfer of the substituent on hypervalent iodine to organic substrate. Reactions of these reagents with organic substrates can be performed under metal‐free conditions, in the presence of transition metal catalysts, or using photocatalysts under photoirradiation conditions. In this review, we focus on the most recent synthetic applications of cyclic hypervalent iodine(III) reagents with the following ligands: N3, NHR, CN, CF3, SCF3, OR, OAc, ONO2, and C(=N2)CO2R. The review covers literature published mainly in the last 5 years.magnified image

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Merging hypervalent iodine and sulfoximine chemistry: a new electrophilic trifluoromethylation reagent

Abstract: Two prominent trifluoromethylation reagent classes join forces in a bench stable hypervalent iodosulfoximine CF3 transfer agent. We report its synthesis, properties and reactivity, opening up new possibilities in trifluoromethylation chemistry.

Cited by 41 publications

References 63 publications

Direct Trifluoromethylation of Alcohols Using a Hypervalent Iodosulfoximine Reagent

Direct Trifluoromethylation of Alcohols Using a Hypervalent Iodosulfoximine Reagent

Heterocyclic Hypervalent Iodine(III) Compounds with Fused Benziodazole and Tetrazole Rings (I-Substituted Tetrazolo[1,5-b][1,2]Benziodazoles)

Recent Progress in Synthetic Applications of Cyclic Hypervalent Iodine(III) Reagents

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