Metallaphotoredox‐Catalyzed Enantioselective Cross‐Electrophile Coupling Using Alcohols as Reducing Agents

The cross‐electrophile coupling (XEC) represents a powerful strategy for C−C bond formation. However, controlling the enantioselectivity in these processes remains a challenge. Here, we report an unprecedented enantioselective XEC of α‐amino acid derivatives with aryl bromides, enabled by alcohols a...

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Bibliographic Details
Published in:Angewandte Chemie 2023-08, Vol.135 (31), p.n/a
Main Authors: Li, Zhilong, Huan, Leitao, Li, Jian, Shu, Xiaomin, Zhong, De, Zhang, Wenjing, Huo, Haohua
Format: Article
Language:English
Subjects:
Alcohols
Amines
Amino acids
Aromatic compounds
Asymmetric Catalysis
Bromides
Catalysis
Chemistry
Cross coupling
Enantiomers
Enantioselectivity
Functional groups
Photochemistry
Photoredox catalysis
Radicals
Reducing agents
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Summary:The cross‐electrophile coupling (XEC) represents a powerful strategy for C−C bond formation. However, controlling the enantioselectivity in these processes remains a challenge. Here, we report an unprecedented enantioselective XEC of α‐amino acid derivatives with aryl bromides, enabled by alcohols as reducing agents via Ni/photoredox catalysis. This mechanistically distinct approach exploits the ability of photocatalytically generated α‐hydroxyalkyl radicals to convert alkyl electrophiles to the corresponding alkyl radicals that are then enantioselectively coupled with aryl bromides. The readily scalable protocol allows modular access to valuable enantioenriched benzylic amines from abundant and inexpensive precursors, and is applicable to late‐stage diversification with broad functional group tolerance. Mechanistic studies rationalize the versatility of this alcohol‐based reactivity for radical generation and subsequent asymmetric cross‐coupling. We expect that this alcohol‐based cross‐coupling will render a general platform for the development of appealing yet challenging enantioselective XECs. An enantioselective coupling of α‐amino acid derivatives and aryl bromides, using Ni/photoredox catalysis and alcohols as reducing agents, is reported. This protocol offers modular access to enantioenriched benzylic amines from abundant precursors, and is suitable for late‐stage diversification with broad functional group tolerance. The alcohol‐based approach holds potential as a general platform for enantioselective cross‐electrophile couplings.
ISSN:0044-8249
1521-3757
DOI:10.1002/ange.202305889