Upgrading ketone synthesis direct from carboxylic acids and organohalides

Ruzi, Rehanguli; Liu, Kai; Zhu, Chengjian; Xie, Jin

doi:10.1038/s41467-020-17224-2

Cited by 84 publications

(43 citation statements)

References 62 publications

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“…Thioesters containing heterocycles such as furan and thiophene are able to participate readily in this acylation, furnishing the desired products (3jj, 3kk). In view of our previous arylalkyl ketone synthesis routes [43][44] , the flexibility of the alkyl source is a useful addition.…”

Section: Resultsmentioning

confidence: 99%

Decarboxylative Acylation of Carboxylic Acids: Reaction Investigation and Mechanistic Study

Han

Xia

et al. 2022

CCS Chem

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Ketones serve as one of the most critical building blocks in organic synthesis, involving in numerous functional group transformations. Herein, we report an unprecedented photoredox/nickel metallaphotoredox-catalyzed decarboxylative acylation of common aliphatic acids with readily available aromatic and aliphatic thioesters. A wide range of structural diverse unsymmetrical arylalkyl and dialkyl ketones have been constructed in yields of up to 98% with this strategy. The protocol has excellent reaction selectivity and functional group compatibility, representing a significant step forward in ketone synthesis. The one-pot decarboxylative acylation at the gram scale from two different carboxylic acids and the late-stage application for the synthesis of complex ketones shows its synthetic robustness. Both mechanistic experiments and DFT calculations suggest that the decarboxylative acylation reaction tends to operate via an underdeveloped Ni(I)−Ni(II)−Ni(I)−Ni(III)-Ni(I) catalytic cycle.

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Section: Resultsmentioning

confidence: 99%

Decarboxylative Acylation of Carboxylic Acids: Reaction Investigation and Mechanistic Study

Han

Xia

et al. 2022

CCS Chem

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“…In 2020, Xie and co‐workers merged photochemical phosphine‐mediated deoxygenation of carboxylic acids with nickel catalysis to deliver a powerful method for the synthesis of aryl ketones [45] . This method uses an iridium photocatalyst to generate a phosphonium radical cation, which reacts with the carboxylate to give the acyl radical 89 (Scheme 20).…”

Section: Radicals From Deoxygenation and Desulfurisation Reactionsmentioning

confidence: 99%

Phosphorus Compounds as Precursors and Catalysts for Radical C−C Bond‐Forming Reactions

Maddigan-Wyatt

Hooper

2021

Adv Synth Catal

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The photochemistry of organophosphorus compounds and their reactions with carbon‐centred radicals was studied from the 1950s to the 70s, but has not been well exploited in synthetic chemistry until very recently. This review discusses the various modes of reactivity that phosphorus compounds display in radical C−C bond forming reactions, including the role of phosphonium salts as radical precursors, phosphines and phosphites as deoxygenating agents from oxygen‐centred radicals and phosphines in electron‐ and charge‐transfer chemistry. We also highlight the potential that these processes have in the future development of new reactions and cascade processes.

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“…In the past few years, dual nickel-photoredox catalysis has been established as a greener alternative to palladium chemistry, permitting a plethora of transformations to form alkyl-aryl bonds, [12] ketones, [13] ethers [14] and other structural moieties under mild reaction conditions. [15] For ketone synthesis, several options exist in this context, starting from various compounds such as α-ketoacids, [16] secondary aliphatic carboxylic acids, [17] amides, [18] and aldehydes, [19] amongst others.…”

Section: Introductionmentioning

confidence: 99%

“…Xie et al used dual nickel-photoredox catalysis in combination with stoichiometric amounts of triphenyl phosphine to access ketones directly from aromatic carboxylic acids and alkyl/aryl bromides. [17] However, only aromatic carboxylic acids could be used which excludes purely aliphatic ketones from the product scope. The previously mentioned examples focus on the generation of acyl radicals and mostly employ aromatic acyl moieties with their additional resonance stabilization, which limits the accessibility of aliphatic ketones.…”

Section: Introductionmentioning

confidence: 99%

Nickel-Mediated Photoreductive Cross Coupling of Carboxylic Acid Derivatives for Ketone Synthesis

Brauer

Quraishi

Kammer

et al. 2021

Preprint

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A simple photochemical, nickel-catalyzed synthesis of ketones starting from carboxylic acids is presented. Hantzsch-ester (HE) functions as a cheap, green and strong photoreductant upon visible-light excitation to facilitate radical generation and also engages in the Ni-catalytic cycle to restore the reactive species. With this dual role, HE allows for the coupling of a large variety of radicals (1°,2°, benzylic, α-oxy & α-amino) with aroyl and alkanoyl moieties, a new feature in the synthesis of ketones through dual nickel photoredox catalysis. With both precursors deriving from abundant carboxylic acids, this protocol is a welcome addition to the organic chemistry toolbox. The reaction proceeds under mild conditions without the need for toxic metal reagents or bases and shows a wide scope, including pharmaceuticals and complex molecular architectures.

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Upgrading ketone synthesis direct from carboxylic acids and organohalides

Cited by 84 publications

References 62 publications

Decarboxylative Acylation of Carboxylic Acids: Reaction Investigation and Mechanistic Study

Decarboxylative Acylation of Carboxylic Acids: Reaction Investigation and Mechanistic Study

Phosphorus Compounds as Precursors and Catalysts for Radical C−C Bond‐Forming Reactions

Nickel-Mediated Photoreductive Cross Coupling of Carboxylic Acid Derivatives for Ketone Synthesis

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