An Asymmetric Hydrogenation/N‐Alkylation Sequence for a Step‐Economical Route to Indolizidines and Quinolizidines

The direct catalytic asymmetric hydrogenation of pyridines for the synthesis of piperidines remains a challenge. Herein, we report a one‐pot asymmetric hydrogenation of pyridines with subsequent N‐alkylation using a traceless Brønsted acid activation strategy. Catalyzed by an iridium‐BINAP complex,...

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Veröffentlicht in:	Angewandte Chemie 2023-10, Vol.135 (41)
Hauptverfasser:	Zhao, Wei, Wang, Wenji, Zhou, Huan, Liu, Qishan, Ma, Zhiqing, Huang, Haizhou, Chang, Mingxin
Format:	Artikel
Sprache:	eng
Schlagworte:	Absolute configuration Alkylation Asymmetry Cascade chemical reactions Chemistry Hydrogenation Iridium Ketones Pyridines Stereoselectivity Substrates
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creator	Zhao, Wei Wang, Wenji Zhou, Huan Liu, Qishan Ma, Zhiqing Huang, Haizhou Chang, Mingxin
description	The direct catalytic asymmetric hydrogenation of pyridines for the synthesis of piperidines remains a challenge. Herein, we report a one‐pot asymmetric hydrogenation of pyridines with subsequent N‐alkylation using a traceless Brønsted acid activation strategy. Catalyzed by an iridium‐BINAP complex, the substrates undergo ketone reduction, cyclization and pyridine hydrogenation in sequence to form indolizidines and quinolizidines. The absolute configuration of the stereocenter of the alcohol is retained and influences the formation of the second stereocenter. Experimental and theoretical mechanistic studies reveal that the chloride anion and certain noncovalent interactions govern the stereoselectivity of the cascade reaction throughout the catalytic process.
doi_str_mv	10.1002/ange.202308836
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subjects	Absolute configuration Alkylation Asymmetry Cascade chemical reactions Chemistry Hydrogenation Iridium Ketones Pyridines Stereoselectivity Substrates
title	An Asymmetric Hydrogenation/N‐Alkylation Sequence for a Step‐Economical Route to Indolizidines and Quinolizidines
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