Catalytic synthesis of amines and N-containing heterocycles: Amidate complexes for selective C–N and C–C bond-forming reactions

The direct, 100 % atom-economic, and selective synthesis of amines is a challenging task that can be achieved, making use of early transition-metal catalysts. Here we report the synthesis and application of group 4 and 5 high-oxidation-state metal amidate complexes in catalytic C–N (hydroamination)...

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Veröffentlicht in:	Pure and applied chemistry 2010-05, Vol.82 (7), p.1503-1515
Hauptverfasser:	Eisenberger, Patrick, Schafer, Laurel L.
Format:	Artikel
Sprache:	eng
Schlagworte:	amidate Amines asymmetric catalysis Catalysis catalytic amine synthesis Chemical synthesis Coordination compounds C–C bond formation C–H activation C–N bond formation hydroamination hydroaminoalkylation Oxidation tantalum Transition metals zirconium
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description	The direct, 100 % atom-economic, and selective synthesis of amines is a challenging task that can be achieved, making use of early transition-metal catalysts. Here we report the synthesis and application of group 4 and 5 high-oxidation-state metal amidate complexes in catalytic C–N (hydroamination) and C–C (hydroaminoalkylation) bond-forming reactions to access substituted amines.
doi_str_mv	10.1351/PAC-CON-09-11-27
format	Article
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subjects	amidate Amines asymmetric catalysis Catalysis catalytic amine synthesis Chemical synthesis Coordination compounds C–C bond formation C–H activation C–N bond formation hydroamination hydroaminoalkylation Oxidation tantalum Transition metals zirconium
title	Catalytic synthesis of amines and N-containing heterocycles: Amidate complexes for selective C–N and C–C bond-forming reactions
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