International audienceThis review collects the developments in the use of TADDOL-derived phosphorus ligands in asymmetric metal catalysis reported since the beginning of 2011, illustrating the power of these cheap and easily tunable ligands to promote many types of highly enantioselective transformations in the presence of a diversity of metals
A crucial element in successfully developing efficient asymmetric catalytic reactions is finding a s...
Although phosphorus containing ligands are commonly employed for enantioselective catalysis as compo...
This thesis summarizes the author’s graduate research on phosphorus ligands synthesis and catalytic ...
International audienceThis review collects the developments in the use of TADDOL-derived phosphorus ...
This review describes some recent developments in the area of asymmetric catalysis using organometal...
The synthesis and applications to allylic substitutions of a range of novel ligands based on diazaph...
This thesis describes, in detail, the synthesis of novel heterobidentate ligands. These ligands were...
In this perspective the development of chiral phosphorus ligands for asymmetric catalysis is discuss...
The tail makes the difference: Removing the isopropylidene acetal unit from well-known TADDOL ligand...
Catalytic asymmetric hydrogenations of prochiral unsaturated compounds, such as olefins, ketones, an...
Over several years, our research team has contributed to ligand design for metal-catalyzed stereosel...
Asymmetric conjugate addition of diethylzinc to cyclohexen-2-one, chalcone, and benzalacetone has be...
Asymmetric catalysis with transition-metal complexes is the basis for a vast array of stereoselectiv...
Readily available phosphoramidites incorporating TADDOL-related diols with an acyclic backbone turne...
Asymmetric catalysis has long been dominated by C2-symmetric bidentate ligands. More recently, steri...
A crucial element in successfully developing efficient asymmetric catalytic reactions is finding a s...
Although phosphorus containing ligands are commonly employed for enantioselective catalysis as compo...
This thesis summarizes the author’s graduate research on phosphorus ligands synthesis and catalytic ...
International audienceThis review collects the developments in the use of TADDOL-derived phosphorus ...
This review describes some recent developments in the area of asymmetric catalysis using organometal...
The synthesis and applications to allylic substitutions of a range of novel ligands based on diazaph...
This thesis describes, in detail, the synthesis of novel heterobidentate ligands. These ligands were...
In this perspective the development of chiral phosphorus ligands for asymmetric catalysis is discuss...
The tail makes the difference: Removing the isopropylidene acetal unit from well-known TADDOL ligand...
Catalytic asymmetric hydrogenations of prochiral unsaturated compounds, such as olefins, ketones, an...
Over several years, our research team has contributed to ligand design for metal-catalyzed stereosel...
Asymmetric conjugate addition of diethylzinc to cyclohexen-2-one, chalcone, and benzalacetone has be...
Asymmetric catalysis with transition-metal complexes is the basis for a vast array of stereoselectiv...
Readily available phosphoramidites incorporating TADDOL-related diols with an acyclic backbone turne...
Asymmetric catalysis has long been dominated by C2-symmetric bidentate ligands. More recently, steri...
A crucial element in successfully developing efficient asymmetric catalytic reactions is finding a s...
Although phosphorus containing ligands are commonly employed for enantioselective catalysis as compo...
This thesis summarizes the author’s graduate research on phosphorus ligands synthesis and catalytic ...
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