Add to ORKGDue to the scarcity of energy resources that we are facing today, there is an increasing need for new methodology developments that are green and sustainable while minimizing unnecessary substrate pre-functionalization, by-product formation and waste generation. In this context, asymmetric rhodium-catalyzed hydroacylation is an atom-economical method for the preparation of chiral ketone derivatives from aldehyde and olefin precursors. This transformation is also applicable to keto-aldehyde precursors en route to chiral lactones. This dissertation describes the development of three specific methodologies, namely: 1) the synthesis of enantioenriched cyclopropyl ketones by enantio- and diastereoselective intermolecular rhodium-catalyzed hydroa...
Rhodium-catalyzed hydroacylation is a powerful and atom-economical method for synthesizing ketones f...
Rhodium-catalyzed hydroacylation is a powerful and atom-economical method for synthesizing ketones f...
The products of organic synthesis affect countless aspects of our everyday lives, from our medicines...
Due to the scarcity of energy resources that we are facing today, there is an increasing need for ne...
The addition of an aldehyde C−H bond across a ketone functionality, formally a hydroacylation, has e...
The addition of an aldehyde C−H bond across a ketone functionality, formally a hydroacylation, has e...
Rhodium-catalyzed enantioselective hydroacylation reactions allow rapid access to chiral substituted...
This thesis documents the development of two new rhodium(I)-catalysed methodologies. The first shows...
Asymmetric transition metal catalysis has benefited human health by greatly facilitating access to n...
Asymmetric transition metal catalysis has benefited human health by greatly facilitating access to n...
Organic synthesis allows access complex materials in the context of fine chemicals, pharmaceuticals,...
Organic synthesis allows access complex materials in the context of fine chemicals, pharmaceuticals,...
Chemical Equation Presented Cleared up! Intermolecular alkyne hydroacylation represents a new additi...
Chemical Equation Presented Cleared up! Intermolecular alkyne hydroacylation represents a new additi...
Controlling carbonyl groups: Identification of the correct ligand/counterion combination was essenti...
Rhodium-catalyzed hydroacylation is a powerful and atom-economical method for synthesizing ketones f...
Rhodium-catalyzed hydroacylation is a powerful and atom-economical method for synthesizing ketones f...
The products of organic synthesis affect countless aspects of our everyday lives, from our medicines...
Due to the scarcity of energy resources that we are facing today, there is an increasing need for ne...
The addition of an aldehyde C−H bond across a ketone functionality, formally a hydroacylation, has e...
The addition of an aldehyde C−H bond across a ketone functionality, formally a hydroacylation, has e...
Rhodium-catalyzed enantioselective hydroacylation reactions allow rapid access to chiral substituted...
This thesis documents the development of two new rhodium(I)-catalysed methodologies. The first shows...
Asymmetric transition metal catalysis has benefited human health by greatly facilitating access to n...
Asymmetric transition metal catalysis has benefited human health by greatly facilitating access to n...
Organic synthesis allows access complex materials in the context of fine chemicals, pharmaceuticals,...
Organic synthesis allows access complex materials in the context of fine chemicals, pharmaceuticals,...
Chemical Equation Presented Cleared up! Intermolecular alkyne hydroacylation represents a new additi...
Chemical Equation Presented Cleared up! Intermolecular alkyne hydroacylation represents a new additi...
Controlling carbonyl groups: Identification of the correct ligand/counterion combination was essenti...
Rhodium-catalyzed hydroacylation is a powerful and atom-economical method for synthesizing ketones f...
Rhodium-catalyzed hydroacylation is a powerful and atom-economical method for synthesizing ketones f...
The products of organic synthesis affect countless aspects of our everyday lives, from our medicines...
