Catalytic asymmetric synthesis of planar-chiral transition-metal complexes

[Display omitted] Planar-chiral transition-metal complexes are important chiral scaffolds in organic and organometallic chemistry and have been utilized as chiral ligands, chiral catalysts, or chiral building blocks. In spite of the usefulness of planar-chiral transition-metal complexes in asymmetri...

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Veröffentlicht in:	Tetrahedron letters 2015-04, Vol.56 (14), p.1751-1761
Hauptverfasser:	Arae, Sachie, Ogasawara, Masamichi
Format:	Artikel
Sprache:	eng
Schlagworte:	Asymmetry Catalysis Catalysts Catalytic asymmetric synthesis Categories Enantioselective reaction Enrichment Homogenous catalysis Ligands Planar chiral Synthesis (chemistry) Tetrahedrons Transition-metal complex
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creator	Arae, Sachie Ogasawara, Masamichi
description	[Display omitted] Planar-chiral transition-metal complexes are important chiral scaffolds in organic and organometallic chemistry and have been utilized as chiral ligands, chiral catalysts, or chiral building blocks. In spite of the usefulness of planar-chiral transition-metal complexes in asymmetric synthesis, enantiomerically enriched forms of these compounds are primarily obtained by rather classical methods. Examples of catalytic controlling planar-chirality in transition-metal species have been extremely rare, and this has been still a developing area in this field. In this review article, various methods of preparing enantiomerically enriched planar-chiral transition-metal complexes using substoichiometric chiral sources are surveyed. Most of the asymmetric reactions in these categories are transition-metal-catalyzed reactions, and there are a few examples of organocatalytic reactions.
doi_str_mv	10.1016/j.tetlet.2015.01.130
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In spite of the usefulness of planar-chiral transition-metal complexes in asymmetric synthesis, enantiomerically enriched forms of these compounds are primarily obtained by rather classical methods. Examples of catalytic controlling planar-chirality in transition-metal species have been extremely rare, and this has been still a developing area in this field. In this review article, various methods of preparing enantiomerically enriched planar-chiral transition-metal complexes using substoichiometric chiral sources are surveyed. 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subjects	Asymmetry Catalysis Catalysts Catalytic asymmetric synthesis Categories Enantioselective reaction Enrichment Homogenous catalysis Ligands Planar chiral Synthesis (chemistry) Tetrahedrons Transition-metal complex
title	Catalytic asymmetric synthesis of planar-chiral transition-metal complexes
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