Add to ORKGThis thesis describes a detailed study of a catalytic system in which hydrogen bonds are formed between two ligand building blocks as well as between the catalyst and the substrate during the asymmetric hydrogenation reaction catalyzed by rhodium complexes. The understanding of the mechanism involved in this transformation allowed us to design a second generation of catalyst that showed higher activity in the hydrogenation of functionalized substrates while excellent selectivity is maintained. Also, the same supramolecular strategy was applied for the formation of iridium complexes. The work described in this thesis gives detailed insights in how hydrogen bonds can be involved in the asymmetric hydrogenation reaction catalyzed by supramolec...
The work presented in this thesis is mainly focused on the development of iridium- or rhodium-cataly...
The work presented in this thesis is mainly focused on the development of iridium- or rhodium-cataly...
Cooperative ligand effects of transition metal complexes have a profound impact on the reaction outc...
The reaction mechanism of the asymmetric hydrogenation of functionalized alkenes catalyzed by a supr...
The reaction mechanism of the asymmetric hydrogenation of functionalized alkenes catalyzed by a supr...
Rational design of catalysts for asymmetric transformations is a longstanding challenge in the field...
A procedure is described for the automated screening and lead optimization of a supramolecular-ligan...
H bonds make the catalysts! A single hydrogen bond between ligands coordinated to a rhodium center i...
Hydrogen bonding has been widely observed in biosynthesis and enzyme catalysis. It plays an importan...
In this study we introduce a novel class of supramolecular bidentate hybrid ligands and their applic...
Rh-catalyzed asymmetric hydrogenation has emerged as a powerful tool for the manufacturing of chiral...
Transition-metal catalyzed stereoselective hydrogenation constitutes an indispensable method for the...
In this thesis, studies of the nature of different transition metal-hydride complexes are described....
Rh-catalyzed asymmetric hydrogenation has emerged as a powerful tool for the manufacturing of chiral...
In this thesis, studies of the nature of different transition metal-hydride complexes are described....
The work presented in this thesis is mainly focused on the development of iridium- or rhodium-cataly...
The work presented in this thesis is mainly focused on the development of iridium- or rhodium-cataly...
Cooperative ligand effects of transition metal complexes have a profound impact on the reaction outc...
The reaction mechanism of the asymmetric hydrogenation of functionalized alkenes catalyzed by a supr...
The reaction mechanism of the asymmetric hydrogenation of functionalized alkenes catalyzed by a supr...
Rational design of catalysts for asymmetric transformations is a longstanding challenge in the field...
A procedure is described for the automated screening and lead optimization of a supramolecular-ligan...
H bonds make the catalysts! A single hydrogen bond between ligands coordinated to a rhodium center i...
Hydrogen bonding has been widely observed in biosynthesis and enzyme catalysis. It plays an importan...
In this study we introduce a novel class of supramolecular bidentate hybrid ligands and their applic...
Rh-catalyzed asymmetric hydrogenation has emerged as a powerful tool for the manufacturing of chiral...
Transition-metal catalyzed stereoselective hydrogenation constitutes an indispensable method for the...
In this thesis, studies of the nature of different transition metal-hydride complexes are described....
Rh-catalyzed asymmetric hydrogenation has emerged as a powerful tool for the manufacturing of chiral...
In this thesis, studies of the nature of different transition metal-hydride complexes are described....
The work presented in this thesis is mainly focused on the development of iridium- or rhodium-cataly...
The work presented in this thesis is mainly focused on the development of iridium- or rhodium-cataly...
Cooperative ligand effects of transition metal complexes have a profound impact on the reaction outc...