Iridium-Catalyzed, Intermolecular Hydroetherification of Unactivated Aliphatic Alkenes with Phenols

Sevov, Christo S.; Hartwig, John F.

doi:10.1021/ja4052153

Cited by 69 publications

(31 citation statements)

References 96 publications

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“…of H 2 was observed. Presumably, a phenoxylation catalysed by silver is followed by a rapid dehydrogenative cyclization [20][21][22][23] . Detailed mechanistic aspects are currently under investigation (Fig.…”

Section: Resultsmentioning

confidence: 99%

A multitasking functional group leads to structural diversity using designer C–H activation reaction cascades

et al. 2014

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The C-H activation strategy has become one of the preferred methods to introduce chemical functionality to a chemically inert carbon atom. Intensive efforts have been devoted to developing either versatile bond formations (product structural diversity) or effective directing groups (substrate site selectivity). From the views of medicinal and synthetic practitioners, the C-H activation approach remains inadequate due to its limitation to pointto-point derivatization. Direct assembly of 3D molecular complexity in a single step remains elusive for this strategy. Towards this goal, a multitasking functional group is required to accomplish several missions in one pot: site selecitivity, cleavability and redox versatility. We demonstrate that an oxyacetamide group is such a multifunctional warhead that enables a series of C-H functionalization cascades and allows direct access to structurally diverse polycyclic heterocyles in one pot. The progress of these reaction cascades were fully controlled by oxidants and temperature. The proliferation of the reaction chain can be extended to a four-step cascade.

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Section: Resultsmentioning

confidence: 99%

A multitasking functional group leads to structural diversity using designer C–H activation reaction cascades

et al. 2014

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“…29 In 2013, Hartwig's group reported the intermolecular hydroetherification of non-activated aliphatic alkenes with phenols catalyzed by an iridium complex of (S)-DTBM-SEGPHOS 36 (Scheme 11). 30 The mechanism is believed to proceed via oxidative addition of the phenol O-H bond to the Ir(I)-phosphine complex, insertion of the olefin into the Ir-O bond, and reductive elimination to release ether products 48.…”

Section: Intermolecular Additionsmentioning

confidence: 99%

Asymmetric Synthesis of Ethers by Catalytic Alkene Hydroalkoxylation

Xie

Li²

2020

Synthesis

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Many chiral ethers have important physiological activities. Although many asymmetric hydroalkoxylations of olefins with alcohols or phenols have been developed to make chiral ethers, challenges still remain in achieving high reactivity and selectivity over an ever-increasing diversity of alkenes and alcohols. In this review, recent developments on catalytic asymmetric alkene hydroalkoxylations are summarized based on the substitution patterns of alkenes.1 Introduction2 Asymmetric Hydroalkoxylation of Non-Activated Alkenes2.1 Intramolecular Additions2.2 Intermolecular Additions3 Asymmetric Hydroalkoxylation of Enol Ethers3.1 Intramolecular Additions3.2 Intermolecular Additions4 Asymmetric Hydroalkoxylation of α,β-Unsaturated Carbonyl Compounds4.1 α,β-Unsaturated Ketones and Aldehydes as Substrates4.2 α,β-Unsaturated Esters, Amides and Carboxylic Acids as Substrates5 Asymmetric Hydroalkoxylation of Allenes5.1 Intramolecular Additions5.2 Intermolecular Additions6 Conclusion

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“…10 Hartwig et al developed the iridium-catalyzed intermolecular hydroetherification of unactivated aliphatic alkenes with phenols, to prepare a wide range of ethers. 11 Recently, Zi reported a gold(I)-catalyzed enantioselective hydroetherification of prochiral phenols with Pstereogenic centers, affording P-chiral cyclic phosphine oxides in good yields with high enantioselectivities. 12 Given the critical importance of the allyl alcohols in synthetic organic chemistry, we envisioned that a catalytic nucleophilic addition of the O-H bond to unactivated propargyl alcohols should serve as a rapid avenue to prepare allylic alcohols without the formation of any chemical waste.…”

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confidence: 99%

Stereoselective Synthesis of (Z)-Allyl Alcohols through Coinage-Metal-Catalyzed Nucleophilic Addition of Benzo[d]isoxazoles with Unactivated Propargyl Alcohols

Chen

Zheng

et al. 2019

Synlett

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The Au/Ag-cocatalyzed stereoselective addition reaction of cyanophenol anion species generated in situ with unactivated propargyl alcohols to produce functionalized (Z)-allyl alcohols in mostly good yields is reported. Benzo[d]isoxazoles were found to be excellent building blocks for the production of highly reactive cyanophenol anions from Kemp elimination reactions, thus serving as a masked benzonitrile source for the preparation of organonitrile derivatives. Silver salt combined with gold catalyst were found to be necessary for the success of this transformation.

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Iridium-Catalyzed, Intermolecular Hydroetherification of Unactivated Aliphatic Alkenes with Phenols

Cited by 69 publications

References 96 publications

A multitasking functional group leads to structural diversity using designer C–H activation reaction cascades

A multitasking functional group leads to structural diversity using designer C–H activation reaction cascades

Asymmetric Synthesis of Ethers by Catalytic Alkene Hydroalkoxylation

Stereoselective Synthesis of (Z)-Allyl Alcohols through Coinage-Metal-Catalyzed Nucleophilic Addition of Benzo[d]isoxazoles with Unactivated Propargyl Alcohols

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Iridium-Catalyzed, Intermolecular Hydroetherification of Unactivated Aliphatic Alkenes with Phenols

Cited by 69 publications

References 96 publications

A multitasking functional group leads to structural diversity using designer C–H activation reaction cascades

A multitasking functional group leads to structural diversity using designer C–H activation reaction cascades

Asymmetric Synthesis of Ethers by Catalytic Alkene Hydro­alkoxy­lation

Stereoselective Synthesis of (Z)-Allyl Alcohols through Coinage-Metal-Catalyzed Nucleophilic Addition of Benzo[d]isoxazoles with Unactivated Propargyl Alcohols

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Asymmetric Synthesis of Ethers by Catalytic Alkene Hydroalkoxylation