Photoinduced Pd-Catalyzed Enantioselective Carboamination of Dienes via Aliphatic C–H Bond Elaboration

Three-component diene carboaminations offer a potent means to access synthetically valuable allylic amines with rapid molecular complexity escalation. The existing literature primarily discloses racemic examples, necessitating the use of halides/pseudohalides as substrates. This paper introduces a p...

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Veröffentlicht in:	Journal of the American Chemical Society 2024-05, Vol.146 (17), p.12053-12062
Hauptverfasser:	Ruan, Xiao-Yun, Wu, Dan-Xing, Li, Wen-Ao, Lin, Zihan, Sayed, Mostafa, Han, Zhi-Yong, Gong, Liu-Zhu
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container_title	Journal of the American Chemical Society
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creator	Ruan, Xiao-Yun Wu, Dan-Xing Li, Wen-Ao Lin, Zihan Sayed, Mostafa Han, Zhi-Yong Gong, Liu-Zhu
description	Three-component diene carboaminations offer a potent means to access synthetically valuable allylic amines with rapid molecular complexity escalation. The existing literature primarily discloses racemic examples, necessitating the use of halides/pseudohalides as substrates. This paper introduces a photoinduced Pd-catalyzed enantioselective three-component carboamination of aryl-substituted 1,3-dienes, leveraging aliphatic C–H bonds for rapid synthesis. The reaction employs 10 mol % of chiral palladium catalyst and an excess aryl bromide as the HAT reagent. This approach yields diverse chiral allylamines with moderate to excellent enantioselectivities. Notably, it stands as the first instance of an asymmetric three-component diene carboamination reaction, directly utilizing abundant C(sp3)–H bearing partners, such as toluene-type substrates, ethers, amines, esters, and ketones. The protocol exhibits versatility across amines, encompassing aliphatic, aromatic, primary, and secondary derivatives. This method could serve as a versatile platform for stereoselective incorporation of various nucleophiles, dienes, and C(sp3)–H bearing partners.
doi_str_mv	10.1021/jacs.4c01690
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title	Photoinduced Pd-Catalyzed Enantioselective Carboamination of Dienes via Aliphatic C–H Bond Elaboration
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