We report an achiral bisphosphine rhodium complex equipped with a binding site for the recognition of chiral anion guests. Upon binding small chiral guests<i>cofactors</i>the rhodium complex becomes chiral and can thus be used for asymmetric catalysis. Screening of a library of cofactors revealed that the best cofactors lead to hydrogenation catalysts that form the products with high enantioselectivity (ee’s up to 99%). Interestingly, a competition experiment shows that even in a mixture of 12 cofactors high ee is obtained, indicating that the complex based on the best cofactor dominates the catalysis
Asymmetric hydrogenation is a significant research field in modern catalytic organic synthesis. In t...
International audienceFor the first time, supramolecular helical rods composed of an achiral metal c...
International audienceFor the first time, supramolecular helical rods composed of an achiral metal c...
We report an achiral bisphosphine rhodium complex equipped with a binding site for the recognition o...
[eng] Herein is reported the efficient preparation of a set of enantiopure bisphosphine ligands, who...
[eng] Herein we report the use of polyether binders as regulation agents (RAs) to enhance the enanti...
Herein we report the use of polyether binders as regulation agents (RAs) to enhance the enantiose...
Two new chiral cationic rhodium(I) complexes derived from electron-rich dicyclohexylphosphine-phosp...
Chiral benzene-1,3,5-tricarboxamide (BTA) ligands, comprising one diphenylphosphino group and one or...
Nature makes wide use of non-covalent interactions to build its complex supramolecular architectures...
Chiral monophosphites derived from BINOL are cheap and efficient ligands in the Rh-catalyzed hydroge...
Chiral monophosphites derived from BINOL are cheap and efficient ligands in the Rh-catalyzed hydroge...
Chiral monophosphites derived from BINOL are cheap and efficient ligands in the Rh-catalyzed hydroge...
The comparative catalytic activities of a few chiral rhodium carboxylato complexes in combination wi...
Herein is described a practical method of preparing enantiopure rhodium(I) complexes that can be ...
Asymmetric hydrogenation is a significant research field in modern catalytic organic synthesis. In t...
International audienceFor the first time, supramolecular helical rods composed of an achiral metal c...
International audienceFor the first time, supramolecular helical rods composed of an achiral metal c...
We report an achiral bisphosphine rhodium complex equipped with a binding site for the recognition o...
[eng] Herein is reported the efficient preparation of a set of enantiopure bisphosphine ligands, who...
[eng] Herein we report the use of polyether binders as regulation agents (RAs) to enhance the enanti...
Herein we report the use of polyether binders as regulation agents (RAs) to enhance the enantiose...
Two new chiral cationic rhodium(I) complexes derived from electron-rich dicyclohexylphosphine-phosp...
Chiral benzene-1,3,5-tricarboxamide (BTA) ligands, comprising one diphenylphosphino group and one or...
Nature makes wide use of non-covalent interactions to build its complex supramolecular architectures...
Chiral monophosphites derived from BINOL are cheap and efficient ligands in the Rh-catalyzed hydroge...
Chiral monophosphites derived from BINOL are cheap and efficient ligands in the Rh-catalyzed hydroge...
Chiral monophosphites derived from BINOL are cheap and efficient ligands in the Rh-catalyzed hydroge...
The comparative catalytic activities of a few chiral rhodium carboxylato complexes in combination wi...
Herein is described a practical method of preparing enantiopure rhodium(I) complexes that can be ...
Asymmetric hydrogenation is a significant research field in modern catalytic organic synthesis. In t...
International audienceFor the first time, supramolecular helical rods composed of an achiral metal c...
International audienceFor the first time, supramolecular helical rods composed of an achiral metal c...