Transition‐Metal‐Free Multiple Functionalization of Piperidines to 4‐Substituted and 3,4‐Disubstituted 2‐Piperidinones

Remote and multiple functionalization of piperidines without the use of transition‐metal catalysts and elaborate directing groups is one of the major challenges in organic synthesis. Herein is reported an unprecedented two‐step protocol that enables the multiple functionalization of piperidines to e...

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Veröffentlicht in:	Chemistry : a European journal 2020-04, Vol.26 (21), p.4671-4676
Hauptverfasser:	Chamorro‐Arenas, Delfino, Nolasco‐Hernández, Alejandro A., Fuentes, Lilia, Quintero, Leticia, Sartillo‐Piscil, Fernando
Format:	Artikel
Sprache:	eng
Schlagworte:	Alkaloids Catalysts Chemistry C−H oxidation Intermediates Lewis acid Oxidation piperidines Substitutes synthetic methods tandem conjugated additions/electrophilic trapping
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container_title	Chemistry : a European journal
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creator	Chamorro‐Arenas, Delfino Nolasco‐Hernández, Alejandro A. Fuentes, Lilia Quintero, Leticia Sartillo‐Piscil, Fernando
description	Remote and multiple functionalization of piperidines without the use of transition‐metal catalysts and elaborate directing groups is one of the major challenges in organic synthesis. Herein is reported an unprecedented two‐step protocol that enables the multiple functionalization of piperidines to either 4‐substituted or trans‐3,4‐disubstituted 2‐piperidones. First, by exploiting the duality of TEMPO reactivity, which under oxidative and thermal conditions fluctuates between cationic and persistent‐radical form, a novel multiple C(sp3)‐H oxidation of piperidines to α,β‐unsaturated 2‐piperidones was developed. Second, the intrinsic low reactivity of the unsaturated piperidones toward conjugated Grignard additions was overcome by using trimethylsilyl chloride (TMSCl) as Lewis acid. Subsequently, conjugated Grignard addition/electrophilic trapping protocol provided substituted 2‐piperidone intermediates, some of which were then transformed into pharmaceutical alkaloids. One, two, step: Unprecedent two‐step protocols that enable the multiple functionalization of piperidines to either 4‐substituted or trans‐3,4‐disubstituted 2‐piperidinones are presented herein, some of which were transformed into pharmaceutical alkaloids.
doi_str_mv	10.1002/chem.201905262
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Herein is reported an unprecedented two‐step protocol that enables the multiple functionalization of piperidines to either 4‐substituted or trans‐3,4‐disubstituted 2‐piperidones. First, by exploiting the duality of TEMPO reactivity, which under oxidative and thermal conditions fluctuates between cationic and persistent‐radical form, a novel multiple C(sp3)‐H oxidation of piperidines to α,β‐unsaturated 2‐piperidones was developed. Second, the intrinsic low reactivity of the unsaturated piperidones toward conjugated Grignard additions was overcome by using trimethylsilyl chloride (TMSCl) as Lewis acid. Subsequently, conjugated Grignard addition/electrophilic trapping protocol provided substituted 2‐piperidone intermediates, some of which were then transformed into pharmaceutical alkaloids. 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Herein is reported an unprecedented two‐step protocol that enables the multiple functionalization of piperidines to either 4‐substituted or trans‐3,4‐disubstituted 2‐piperidones. First, by exploiting the duality of TEMPO reactivity, which under oxidative and thermal conditions fluctuates between cationic and persistent‐radical form, a novel multiple C(sp3)‐H oxidation of piperidines to α,β‐unsaturated 2‐piperidones was developed. Second, the intrinsic low reactivity of the unsaturated piperidones toward conjugated Grignard additions was overcome by using trimethylsilyl chloride (TMSCl) as Lewis acid. Subsequently, conjugated Grignard addition/electrophilic trapping protocol provided substituted 2‐piperidone intermediates, some of which were then transformed into pharmaceutical alkaloids. 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subjects	Alkaloids Catalysts Chemistry C−H oxidation Intermediates Lewis acid Oxidation piperidines Substitutes synthetic methods tandem conjugated additions/electrophilic trapping
title	Transition‐Metal‐Free Multiple Functionalization of Piperidines to 4‐Substituted and 3,4‐Disubstituted 2‐Piperidinones
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