Stereoretentive and regioselective selenium-catalyzed intermolecular propargylic C-H amination of alkynes

Herein we report an intermolecular propargylic C-H amination of alkynes. This reaction is operationally convenient and requires no transition metal catalysts or additives. Terminal, silyl, and internal alkynes bearing a wide range of functional groups can be aminated in high yields. The regioselecti...

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Veröffentlicht in:	Chemical science (Cambridge) 2022-02, Vol.13 (7), p.2121-2127
Hauptverfasser:	Maloney, T. Parker, Dohoda, Alexander F, Zhu, Alec C, Michael, Forrest E
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Sprache:	eng
Schlagworte:	Additives Alkynes Chemistry Destabilization Functional groups Isotopes Regioselectivity Selenium Substitution reactions Transition metals
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creator	Maloney, T. Parker Dohoda, Alexander F Zhu, Alec C Michael, Forrest E
description	Herein we report an intermolecular propargylic C-H amination of alkynes. This reaction is operationally convenient and requires no transition metal catalysts or additives. Terminal, silyl, and internal alkynes bearing a wide range of functional groups can be aminated in high yields. The regioselectivity of amination for unsymmetrical internal alkynes is strongly influenced by substitution pattern (tertiary > secondary > primary) and by relatively remote heteroatomic substituents. We demonstrate that amination of alkynes bearing α-stereocenters occurs with retention of configuration at the newly-formed C-N bond. Competition experiments between alkynes, kinetic isotope effects, and DFT calculations are performed to confirm the mechanistic hypothesis that initial ene reaction of a selenium bis(imide) species is the rate- and product-determining step. This ene reaction has a transition state that results in substantial partial positive charge development at the carbon atom closer to the amination position. Inductive and/or hyperconjugative stabilization or destabilization of this positive charge explains the observed regioselectivities. Selenium catalysis enables a general intermolecular propargylic C-H amination of alkynes. The concerted mechanism gives rise to high regioselectivity for the more electron-rich end of the alkyne and retention of the C-H propargylic stereocenter.
doi_str_mv	10.1039/d1sc07067c
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Parker</creatorcontrib><creatorcontrib>Dohoda, Alexander F</creatorcontrib><creatorcontrib>Zhu, Alec C</creatorcontrib><creatorcontrib>Michael, Forrest E</creatorcontrib><title>Stereoretentive and regioselective selenium-catalyzed intermolecular propargylic C-H amination of alkynes</title><title>Chemical science (Cambridge)</title><addtitle>Chem Sci</addtitle><description>Herein we report an intermolecular propargylic C-H amination of alkynes. This reaction is operationally convenient and requires no transition metal catalysts or additives. Terminal, silyl, and internal alkynes bearing a wide range of functional groups can be aminated in high yields. The regioselectivity of amination for unsymmetrical internal alkynes is strongly influenced by substitution pattern (tertiary > secondary > primary) and by relatively remote heteroatomic substituents. We demonstrate that amination of alkynes bearing α-stereocenters occurs with retention of configuration at the newly-formed C-N bond. 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subjects	Additives Alkynes Chemistry Destabilization Functional groups Isotopes Regioselectivity Selenium Substitution reactions Transition metals
title	Stereoretentive and regioselective selenium-catalyzed intermolecular propargylic C-H amination of alkynes
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