1385022-76-3Relevant academic research and scientific papers
Chiral Triazoles in Anion-Binding Catalysis: New Entry to Enantioselective Reissert-Type Reactions
Zurro, Mercedes,Asmus, S?ren,Bamberger, Julia,Beckendorf, Stephan,García Manche?o, Olga
, p. 3785 - 3793 (2016)
Easily accessible and tunable chiral triazoles have been introduced as a novel class of C-H bond-based H-donors for anion-binding organocatalysis. They have proven to be effective catalysts for the dearomatization reaction of different N-heteroarenes. Although this dearomatization approach represents a powerful strategy to build chiral heterocycles, to date only a few catalytic methods to this end exist. In this work, the organocatalyzed enantioselective Reissert-type dearomatization of isoquinoline derivatives employing a number of structurally diverse chiral triazoles as anion-binding catalysts was realized. The here presented method was employed to synthesize a number of chiral 1,2-dihydroisoquinoline substrates with an enantioselectivity up to 86:14 e.r. Moreover, a thorough study of the determining parameters affecting the activity of this type of anion- binding catalysts was carried out.
Superstable palladium(0) complex as an air-and thermostable catalyst for Suzuki coupling reactions
Jakab, Alexandra,Dalicsek, Zoltn,Holczbauer, Tams,Hamza, Andrea,Ppai, Imre,Finta, Zoltn,Timri, Gza,Sos, Tibor
, p. 60 - 66 (2015/02/02)
An unprecedentedly thermo-and air-stable Pd0 complex from readily available electron-poor trifluoromethylated phosphine was serendipitously discovered. As detailed and comparative DFT calculations indicate, the stability of the complex is associated with unusually strong ligand-ligand noncovalent interactions. The unique stability and the presence of hydrophobic structural elements of the complex offer several practical advantages, which were exploited in catalytic Suzuki-Miyaura coupling reactions.
A NEW PALLADIUM CATALYST, METHOD FOR ITS PREPARATION AND ITS USE
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Page/Page column 19-20, (2012/07/27)
The invention relates to palladium(0)-tetrakis{tri-[3,5-bis(trifluoromethyl)- phenylj-phosphine} complex of formula (I), as well as to its preparation and use. This compound is outstandingly stable, and can be used as catalyst with excellent results.
