Andere Kunden interessierten sich auch für
![Development of New Catalytic C-C, C-N Bond Forming Multicomponents Reactions]( "Development of New Catalytic C-C, C-N Bond Forming Multicomponents Reactions")
Development of New Catalytic C-C, C-N Bond Forming Multicomponents Reactions46,99 €![Stereoselective Multiple Bond-Forming Transformations in Organic Synthesis]( "Stereoselective Multiple Bond-Forming Transformations in Organic Synthesis")
Stereoselective Multiple Bond-Forming Transformations in Organic Synthesis180,99 €![Development of Novel Hydrogen-Bond Donor Catalysts]( "Development of Novel Hydrogen-Bond Donor Catalysts")
Development of Novel Hydrogen-Bond Donor Catalysts37,99 €![C-C Coupling Reactions for the Synthesis of Carbostyrils Derivatives]( "C-C Coupling Reactions for the Synthesis of Carbostyrils Derivatives")
C-C Coupling Reactions for the Synthesis of Carbostyrils Derivatives32,99 €![Amide Bond Activation: Concepts and Reactions]( "Amide Bond Activation: Concepts and Reactions")
Amide Bond Activation: Concepts and Reactions156,99 €![Contribution à la synthèse des hétérocycles à cinq et six chaînons]( "Contribution à la synthèse des hétérocycles à cinq et six chaînons")
Contribution à la synthèse des hétérocycles à cinq et six chaînons23,99 €![Molecular Dynamics of Glass-Forming Systems]( "Molecular Dynamics of Glass-Forming Systems")
Molecular Dynamics of Glass-Forming Systems147,99 €
This guide is based on the synthesis of bisquinlone based phosphine ligands and desulfitative carbon-carbon bond forming reactions. It is divided into 3 chapters which include first an overview about heterocyclic BINAP analogues. In this chapter, survey of developing atropisomeric biheteroaryl backbone-containing bisphosphines, their designing concept, synthetic approaches and some of their important applications are discussed. Second, efficient synthesis of functionalized novel bisquinolone based mono- and diphosphine ligands of the aza-BINAP type. Preliminary studies confirm that these novel types of aza-BINAP phosphines containing an enamide moiety incorporated into the heteroaryl ring are indeed useful ligands in transition metal-catalyzed transformations. Third, palladium(0)- catalyzed, copper(I)-mediated desulfitative C C cross-coupling protocol (Liebeskind Srogl type) of cyclic thioamides and thioureas with alkenylboronic acids, vinyl- and (het)arylstannanes, and arylsiloxanes is performed. These C C cross-couplings are a valuable extension of the traditional Liebeskind Srogl reactions utilizing thioethers as electrophilic reagents.