Visible-Light-Promoted Enantioselective α-Amidation of Aldehydes by Harnessing Organo-Iron Dual Catalysis

Hore, Soumyadip; Jeong, Jiwoo; Kim, Dongwook; Chang, Sukbok

doi:10.1021/jacs.4c07884

J. Am. Chem. Soc.

2024

DOI: 10.1021/jacs.4c07884

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Visible-Light-Promoted Enantioselective α-Amidation of Aldehydes by Harnessing Organo-Iron Dual Catalysis

Soumyadip Hore,

Jiwoo Jeong,

Dongwook Kim

et al.

Abstract: The strategic integration of organocatalysis with transition-metal catalysis to achieve otherwise unattainable stereoselective transformations may serve as a powerful synthetic tool. Herein, we present a synthetically versatile α-amidation of aldehydes by leveraging dual iron and chiral enamine catalysis in an enantioselective manner (up to >99:1 er). Experimental and computational studies have led us to propose a new mechanistic platform, wherein visible-light-promoted LMCT generates [Fe(II)Cl 3 − ], which ef… Show more

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Cited by 5 publications

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Fe‐Catalyzed α‐C(sp³)−H Amination of N‐Heterocycles

Geraci,

Baudoin

2024

Angewandte Chemie

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Nitrogen‐heterocycles are privileged structures in both marketed drugs and natural products. On the other hand, C–H amination reactions furnish unconventional and straightforward approaches for the construction of C–N bonds. Yet, most of the known methods rely on precious metal catalysts. Herein we report a site‐selective intermolecular C(sp3)–H amination of N‐heterocycles, catalyzed by inexpensive FeCl2, which allows the functionalization of a wide range of pharmaceutically relevant cyclic amines. The C–H amination occurs site‐selectively in α‐position to the nitrogen atom, even when weaker C–H bonds are present, and furnishes Troc‐protected aminals or amidines. The method employs the N‐heterocycle as limiting reagent and is applicable to the late‐stage functionalization of complex molecules. Its synthetic potential was further illustrated through the derivatization of α‐aminated products and the application to a concise total synthesis of the reported structure for senobtusin. Mechanistic studies allowed to propose a plausible reaction mechanism involving a turnover‐limiting Fe‐nitrene generation followed by fast H atom transfer and radical rebound.

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Fe‐Catalyzed α‐C(sp³)−H Amination of N‐Heterocycles

Geraci,

Baudoin

2024

Angewandte Chemie

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Fe‐Catalyzed α‐C(sp³)−H Amination of N‐Heterocycles

Geraci,

Baudoin

2024

Angew Chem Int Ed

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Cp∗Co(III)-catalyzed C–H amidation of 2-arylimidazo[1,2-α]pyridines with dioxazolones

Yu,

Bai,

You

et al. 2025

Tetrahedron

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Visible-Light-Promoted Enantioselective α-Amidation of Aldehydes by Harnessing Organo-Iron Dual Catalysis

Cited by 5 publications

References 72 publications

Fe‐Catalyzed α‐C(sp³)−H Amination of N‐Heterocycles

Fe‐Catalyzed α‐C(sp³)−H Amination of N‐Heterocycles

Fe‐Catalyzed α‐C(sp³)−H Amination of N‐Heterocycles

Cp∗Co(III)-catalyzed C–H amidation of 2-arylimidazo[1,2-α]pyridines with dioxazolones

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Visible-Light-Promoted Enantioselective α-Amidation of Aldehydes by Harnessing Organo-Iron Dual Catalysis

Cited by 5 publications

References 72 publications

Fe‐Catalyzed α‐C(sp3)−H Amination of N‐Heterocycles

Fe‐Catalyzed α‐C(sp3)−H Amination of N‐Heterocycles

Fe‐Catalyzed α‐C(sp3)−H Amination of N‐Heterocycles

Cp∗Co(III)-catalyzed C–H amidation of 2-arylimidazo[1,2-α]pyridines with dioxazolones

Contact Info

Product

Resources

About

Fe‐Catalyzed α‐C(sp³)−H Amination of N‐Heterocycles

Fe‐Catalyzed α‐C(sp³)−H Amination of N‐Heterocycles

Fe‐Catalyzed α‐C(sp³)−H Amination of N‐Heterocycles