Organometallic catalysis for applications in radical chemistry and asymmetric synthesis

Aubert, Corinne; Barbazanges, Marion; Jutand, Anny; Kyne, Sara H.; Ollivier, Cyril; Fensterbank, Louis

doi:10.1515/pac-2014-5030

Pure and Applied Chemistry

2014

DOI: 10.1515/pac-2014-5030

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Organometallic catalysis for applications in radical chemistry and asymmetric synthesis

Corinne Aubert

Marion Barbazanges

Anny Jutand

et al.

Abstract: Abstract:Two organometallic catalysis studies are presented. The first one deals with the development of a new catalytic agent based on the mixture of a hydride and an iron salt to trigger efficient radical cyclization processes. In a second line of research, we have shown that the use of chiral anions can outperform chiral ligands in a carbocyclization reaction and a [2 + 2 + 2] cycloaddition.

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Cited by 3 publications

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Stable Meisenheimer Complexes as Powerful Photoreductants Readily Obtained from Aza‐Hetero Aromatic Compounds

Calogero,

Wilczek,

Pinosa

et al. 2024

Angewandte Chemie

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Excited states of radical anions derived from the photoreduction of stable organic molecules are suggested to serve as potent reductants. However, excited states of these species are too short‐lived to allow bimolecular quenching processes. Recently, the singlet excited state of Meisenheimer complexes, which possess a long‐lived excited state, was identified as the competent species for the reduction of challenging organic substrates (–2.63 V vs. SCE, saturated calomel electrode). To produce reasonably stable and simply accessible different Meisenheimer complexes, the addition of nBuLi to readily available aromatic heterocycles was investigated, and the photoreactivity of the generated species was studied. In this paper, we present the straightforward preparation of a family of powerful photoreductants (*Eox<–3 V vs. SCE in their excited states, determined by DFT and time‐dependent TD‐DFT calculations; (DFT, density functional theory) that can induce dehalogenation of electron‐rich aryl chlorides and to form C−C bond through radical cyclization. Photophysical analyses and computational studies in combination with experimental mechanistic investigations demonstrate the ability of the adduct to act as a strong electron donor under visible light irradiation.

show abstract

Stable Meisenheimer Complexes as Powerful Photoreductants Readily Obtained from Aza‐Hetero Aromatic Compounds

Calogero,

Wilczek,

Pinosa

et al. 2024

Angewandte Chemie

View full text Add to dashboard Cite

show abstract

Stable Meisenheimer Complexes as Powerful Photoreductants Readily Obtained from Aza‐Hetero Aromatic Compounds

Calogero,

Wilczek,

Pinosa

et al. 2024

Angew Chem Int Ed

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ChemInform Abstract: Organometallic Catalysis for Applications in Radical Chemistry and Asymmetric Synthesis.

Aubert¹,

Barbazanges²,

Jutand³

et al. 2014

ChemInform

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Organometallic catalysis for applications in radical chemistry and asymmetric synthesis

Cited by 3 publications

References 8 publications

Stable Meisenheimer Complexes as Powerful Photoreductants Readily Obtained from Aza‐Hetero Aromatic Compounds

Stable Meisenheimer Complexes as Powerful Photoreductants Readily Obtained from Aza‐Hetero Aromatic Compounds

Stable Meisenheimer Complexes as Powerful Photoreductants Readily Obtained from Aza‐Hetero Aromatic Compounds

ChemInform Abstract: Organometallic Catalysis for Applications in Radical Chemistry and Asymmetric Synthesis.

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