Rare‐Earth‐Metal‐Catalyzed Synthesis of Azaindolines and Naphthyridines via C−H Cyclization of Functionalized Pyridines

We report herein a rare‐earth‐metal‐catalyzed insertion of a 2‐pyridine C(sp2)−H bond into an intramolecular unactivated vinyl bond. This reaction provides streamlined access to a range of azaindolines in moderate to excellent yields. The salient features of this reaction include simple and mild rea...

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Veröffentlicht in:	Advanced synthesis & catalysis 2020-02, Vol.362 (4), p.851-857
Hauptverfasser:	Ye, Pengqing, Shao, Yinlin, Zhang, Fangjun, Zou, Jinxuan, Ye, Xuanzeng, Chen, Jiuxi
Format:	Artikel
Sprache:	eng
Schlagworte:	azaindolines Chemical synthesis C−H cyclization functionalized pyridine Hydrogen bonds Insertion naphthyridines Pyridines rare-earth-metal catalysis Substrates
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container_issue	4
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container_title	Advanced synthesis & catalysis
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creator	Ye, Pengqing Shao, Yinlin Zhang, Fangjun Zou, Jinxuan Ye, Xuanzeng Chen, Jiuxi
description	We report herein a rare‐earth‐metal‐catalyzed insertion of a 2‐pyridine C(sp2)−H bond into an intramolecular unactivated vinyl bond. This reaction provides streamlined access to a range of azaindolines in moderate to excellent yields. The salient features of this reaction include simple and mild reaction conditions, 100% atom efficiency, and wide substrate scope. This methodology is also used to construct other nitrogen‐containing compounds such as naphthyridine derivatives. A plausible mechanism for the formation of azaindolines involving initial C−H bond activation by the lanthanide complex followed by C=C insertion into a Ln−C bond to form an alkyl lanthanide species that subsequently undergoes cyclization is proposed.
doi_str_mv	10.1002/adsc.201901473
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subjects	azaindolines Chemical synthesis C−H cyclization functionalized pyridine Hydrogen bonds Insertion naphthyridines Pyridines rare-earth-metal catalysis Substrates
title	Rare‐Earth‐Metal‐Catalyzed Synthesis of Azaindolines and Naphthyridines via C−H Cyclization of Functionalized Pyridines
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