Joshua Paolillo scite author profile

Herein we report the anaerobic cleavage of alkenes into carbonyl compounds using nitroarenes as oxygen transfer reagents under visible light. This approach serves as a safe and practical alternative to mainstream oxidative cleavage protocols, such as ozonolysis and the Lemieux−Johnson reaction. A wide range of alkenes possessing oxidatively sensitive functionalities underwent anaerobic cleavage to generate carbonyl derivatives with high efficiency and regioselectivity. Mechanistic studies support that the transformation occurs via direct photoexcitation of the nitroarene followed by a nonstereospecific radical cycloaddition event with alkenes. This leads to 1,3,2-and 1,4,2-dioxazolidine intermediates that fragment to give the carbonyl products. A combination of radical clock experiments and in situ photoNMR spectroscopy revealed the identities of the key radical species and the putative aryl dioxazolidine intermediates, respectively.

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Anaerobic Hydroxylation of C(sp³)–H Bonds Enabled by the Synergistic Nature of Photoexcited Nitroarenes

Paolillo

Duke

Gogarnoiu

et al. 2023

J. Am. Chem. Soc.

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A photoexcited-nitroarene-mediated anaerobic C−H hydroxylation of aliphatic systems is reported. The success of this reaction is due to the bifunctional nature of the photoexcited nitroarene, which serves as the C−H bond activator and the oxygen atom source. Compared to previous methods, this approach is cost-and atom-economical due to the commercial availability of the nitroarene, the sole mediator of the reaction. Because of the anaerobic conditions of the transformation, a noteworthy expansion in substrate scope can be obtained compared to prior reports. Mechanistic studies support that the photoexcited nitroarenes engage in successive hydrogen atom transfer and radical recombination events with hydrocarbons, leading to Narylhydroxylamine ether intermediates. Spontaneous fragmentation of these intermediates leads to the key oxygen atom transfer products.

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Oxidative Amidation of Amines in Tandem with Transamidation: A Route to Amides Using Visible-Light Energy

et al. 2020

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A methodology is reported for preparing amides using amines as an acyl source. The protocol involves the visible-light-promoted oxidative amidation of amines with pyrazole to synthesize N-acyl pyrazoles followed by transamidation. By combining photoredox catalysis with oxoammonium cations in the presence of sodium persulfate as a terminal oxidant, the N-acyl pyrazoles could be prepared efficiently and effectively using blue LEDs. The transamidation step was performed without the need to purify the N-acyl pyrazole intermediate, and a range of amides were generated in good to excellent yields.

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Discovery and Process Development of a Scalable Biocatalytic Kinetic Resolution toward Synthesis of a Sterically Hindered Chiral Ketone

Wamser

Buono

et al. 2022

Org. Process Res. Dev.

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Sterically hindered chiral ketones are useful intermediates in the synthesis of active pharmaceutical ingredients. Here, we report a scalable and highly enantioselective synthesis through a kinetic resolution process promoted by a wild-type ketoreductase (KRED) enzyme. The process was investigated thoroughly, including DoE optimizations and a kinetic study. Scale-up demonstrations on up to 0.8 kg revealed an enzyme aggregation/deactivation challenge, and solutions were provided to obtain the desired enantiomer in high yields and enantiomeric excesses with relatively low enzyme loadings (2−4 wt %).

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Oxidation of α-trifluoromethyl and non-fluorinated alcoholsviathe merger of oxoammonium cations and photoredox catalysis

et al. 2018

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We present an alcohol oxidation strategy to access α-trifluoromethyl ketones (TFMKs) merging catalytic oxoammonium cation oxidation with visible-light photoredox catalysis. This work uses 4-acetamido-(2,2,6,6-tetramethyl-piperidin-1-yl)oxyl as an organic oxidant capable of generating TFMKs in good yields. The methodology serves as an improvement over previous reports of an analogous oxidation strategy requiring superstoichiometric quantities of oxidant. Both primary and secondary non-fluorinated alcohols can also be oxidised in good yields.

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Joshua Paolillo

Photoinduced Oxygen Transfer Using Nitroarenes for the Anaerobic Cleavage of Alkenes

Anaerobic Hydroxylation of C(sp³)–H Bonds Enabled by the Synergistic Nature of Photoexcited Nitroarenes

Oxidative Amidation of Amines in Tandem with Transamidation: A Route to Amides Using Visible-Light Energy

Discovery and Process Development of a Scalable Biocatalytic Kinetic Resolution toward Synthesis of a Sterically Hindered Chiral Ketone

Oxidation of α-trifluoromethyl and non-fluorinated alcoholsviathe merger of oxoammonium cations and photoredox catalysis

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Joshua Paolillo

Photoinduced Oxygen Transfer Using Nitroarenes for the Anaerobic Cleavage of Alkenes

Anaerobic Hydroxylation of C(sp3)–H Bonds Enabled by the Synergistic Nature of Photoexcited Nitroarenes

Oxidative Amidation of Amines in Tandem with Transamidation: A Route to Amides Using Visible-Light Energy

Discovery and Process Development of a Scalable Biocatalytic Kinetic Resolution toward Synthesis of a Sterically Hindered Chiral Ketone

Oxidation of α-trifluoromethyl and non-fluorinated alcoholsviathe merger of oxoammonium cations and photoredox catalysis

Contact Info

Product

Resources

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Anaerobic Hydroxylation of C(sp³)–H Bonds Enabled by the Synergistic Nature of Photoexcited Nitroarenes