A facile C–H activation and functionalization of aromatic imines is presented using low-valent cobalt catalysts. Using Co(PMe<sub>3</sub>)<sub>4</sub> as catalyst we have developed an efficient and simple protocol for the C–H/hydroarylation of alkynes with an <i>anti</i> selectivity. Deuterium-labeling experiments, DFT calculations coupled with the use of a well-defined catalyst have for the first time shed light on the elusive black box of cobalt catalyzed C–H functionalization
During the past decades, transition metal-catalyzed chelation-assisted C–H bond functionalization ha...
This thesis was focused on well-defined low-valent cobalt complexes HCo(PMe3)4/HCoN2(PPh3)3, the ben...
This thesis was focused on well-defined low-valent cobalt complexes HCo(PMe3)4/HCoN2(PPh3)3, the ben...
A facile C–H activation and functionalization of aromatic imines is presented using low-valent cobal...
A facile C–H activation and functionalization of aromatic imines is presented using low-valent cobal...
A facile C–H activation and functionalization of aromatic imines is presented using low-valent cobal...
A facile C–H activation and functionalization of aromatic imines is presented using low-valent cobal...
A facile C–H activation and functionalization of aromatic imines is presented using low-valent cobal...
International audienceA facile C-H activation and functionalization of aromatic imines is presented ...
Over the past two decades, extensive investigations into transition metal-catalyzed C–H activation p...
As an earth-abundant first-row transition metal, cobalt catalysts offer a broad range of economical ...
Transition metal-catalyzed C–H activation has become a powerful approach for atom- and step-economic...
This thesis has focused on the use of well-defined low-valent cobalt complexes of the family RCo(PMe...
This thesis has focused on the use of well-defined low-valent cobalt complexes of the family RCo(PMe...
This thesis has focused on the use of well-defined low-valent cobalt complexes of the family RCo(PMe...
During the past decades, transition metal-catalyzed chelation-assisted C–H bond functionalization ha...
This thesis was focused on well-defined low-valent cobalt complexes HCo(PMe3)4/HCoN2(PPh3)3, the ben...
This thesis was focused on well-defined low-valent cobalt complexes HCo(PMe3)4/HCoN2(PPh3)3, the ben...
A facile C–H activation and functionalization of aromatic imines is presented using low-valent cobal...
A facile C–H activation and functionalization of aromatic imines is presented using low-valent cobal...
A facile C–H activation and functionalization of aromatic imines is presented using low-valent cobal...
A facile C–H activation and functionalization of aromatic imines is presented using low-valent cobal...
A facile C–H activation and functionalization of aromatic imines is presented using low-valent cobal...
International audienceA facile C-H activation and functionalization of aromatic imines is presented ...
Over the past two decades, extensive investigations into transition metal-catalyzed C–H activation p...
As an earth-abundant first-row transition metal, cobalt catalysts offer a broad range of economical ...
Transition metal-catalyzed C–H activation has become a powerful approach for atom- and step-economic...
This thesis has focused on the use of well-defined low-valent cobalt complexes of the family RCo(PMe...
This thesis has focused on the use of well-defined low-valent cobalt complexes of the family RCo(PMe...
This thesis has focused on the use of well-defined low-valent cobalt complexes of the family RCo(PMe...
During the past decades, transition metal-catalyzed chelation-assisted C–H bond functionalization ha...
This thesis was focused on well-defined low-valent cobalt complexes HCo(PMe3)4/HCoN2(PPh3)3, the ben...
This thesis was focused on well-defined low-valent cobalt complexes HCo(PMe3)4/HCoN2(PPh3)3, the ben...