Journal ArticleDOI
Basic character of rare earth metal alkoxides. Utilization in catalytic C-C bond-forming reactions and catalytic asymmetric nitroaldol reactions
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In this article, the authors reported several carbon-carbon bond-forming reactions catalyzed by rare earth metal alkoxides and their application to a catalytic asymmetric nitroaldol reaction.Abstract:
In a recent paper, the authors reported that Zr(O-t-Bu){sub 4} was an efficient and convenient basic reagent in organic synthesis. However, all reactions examined were performed with stoichiometric quantities of the reagent. The authors envisioned that rare earth metal alkoxides would be stronger bases than group 4 metal alkoxides due to the lower ionization potential (ca. 5.4-6.4 eV) and the lower electronegativity (1.1-1.3) of rare earth elements; thus, the catalytic use of rare earth metal alkoxides in organic synthesis was expected. Although a variety of rare earth metal alkoxides have been prepared for the last three decades, to the authors knowledge, there have been few reports concerning the basicity of rare earth metal alkoxides. Herein, the authors report several carbon-carbon bond-forming reactions catalyzed by rare earth metal alkoxides and their application to a catalytic asymmetric nitroaldol reaction.read more
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The First Catalytic Asymmetric Aza-Henry Reaction of Nitronates with Imines: A Novel Approach to Optically Active β-Nitro-α-Amino Acid- and α,β-Diamino Acid Derivatives
Kristian Rahbek Knudsen,Tine Risgaard,Nagatoshi Nishiwaki,and Kurt V. Gothelf,Karl Anker Jørgensen +4 more
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Catalytic enantioselective aldol reactions
TL;DR: This review article is organized under the categories of catalytic enantioselective aldol reactions of preformed enolates, catalyticEnantioseLECTive direct-type a Aldol reactions using chiral metal catalysts, and catalytic Enantioselections in aqueous media.
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Self‐Assembly of Heterobimetallic Complexes and Reactive Nucleophiles: A General Strategy for the Activation of Asymmetric Reactions Promoted by Heterobimetallic Catalysts
TL;DR: In this paper, the authors showed that the combined use of Ga Na−BINOL and NaOtBu as the catalyst gives reaction rates that are about 50 times faster than with Ga Na-BINol alone.
Journal ArticleDOI
Practical asymmetric Henry reaction catalyzed by a chiral diamine-Cu(OAc)2 complex.
TL;DR: The chiral diamine ligand 3 was designed and synthesized from (R,R)-1,2-diphenylethylenediamine, (S)-2,2'-dibromomethyl-1,1'-binaphthalene, and o-xylylene dibromide, giving the various nitroaldols with over 90% ee.
Journal ArticleDOI
New Highly Asymmetric Henry Reaction Catalyzed by CuII and a C1‐Symmetric Aminopyridine Ligand, and Its Application to the Synthesis of Miconazole
TL;DR: A new catalytic asymmetric Henry reaction has been developed that uses a C(1)-symmetric chiral aminopyridine ligand derived from camphor and picolylamine that is air-tolerant and has been used in the synthesis of the antifungal agent miconazole.
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