Asymmetric organocatalysis is a 'fast lane' of the chemical highway: the progress in the last decade is simply spectacular. This introductory article summarizes basic principles, historical background, and discusses basic catalyst classes and reaction types
Organocatalysis, catalysis with low-molecular weight catalysts in which a metal is not part of the c...
Enantioselective organocatalysis has quickly established itself as the third pillar of asymmetric ca...
Enantioselective organocatalysis has quickly established itself as the third pillar of asymmetric ca...
This Review is dealing with selected papers reported in 2006 and the first half of 2007 and is inten...
For a long time, there seemed to have been an unwritten rule that organocatalysts, in contrast to tr...
The field of asymmetric organocatalysis is rapidly developing and attracts an increasing number of r...
This short Perspective on Organocatalysis aims at providing a brief introduction to the field by fir...
In the year 2000, Accounts of Chemical Research published a landmark special edition on the timely s...
Organocatalysis has become a major pillar of (asymmetric) catalysis. Here, the authors discuss recen...
Chemical synthesis is one of the key technologies underlying modern drug discovery and development. ...
Gröger H. Asymmetric Organocatalysis on a Technical Scale: Current Status and Future Challenges. In:...
Gröger H. Asymmetric organocatalysis on a technical scale: current status and future challenges. In:...
During the last 20 years, organocatalysis has significantly advanced as a field. Thanks to contribut...
Berkessel A, Gröger H. Asymmetric Organocatalysis. Weinheim: Wiley-VCH-Verlag; 2005
Reactions carried out with substoichiometric quantities of organic molecules as catalysts have recei...
Organocatalysis, catalysis with low-molecular weight catalysts in which a metal is not part of the c...
Enantioselective organocatalysis has quickly established itself as the third pillar of asymmetric ca...
Enantioselective organocatalysis has quickly established itself as the third pillar of asymmetric ca...
This Review is dealing with selected papers reported in 2006 and the first half of 2007 and is inten...
For a long time, there seemed to have been an unwritten rule that organocatalysts, in contrast to tr...
The field of asymmetric organocatalysis is rapidly developing and attracts an increasing number of r...
This short Perspective on Organocatalysis aims at providing a brief introduction to the field by fir...
In the year 2000, Accounts of Chemical Research published a landmark special edition on the timely s...
Organocatalysis has become a major pillar of (asymmetric) catalysis. Here, the authors discuss recen...
Chemical synthesis is one of the key technologies underlying modern drug discovery and development. ...
Gröger H. Asymmetric Organocatalysis on a Technical Scale: Current Status and Future Challenges. In:...
Gröger H. Asymmetric organocatalysis on a technical scale: current status and future challenges. In:...
During the last 20 years, organocatalysis has significantly advanced as a field. Thanks to contribut...
Berkessel A, Gröger H. Asymmetric Organocatalysis. Weinheim: Wiley-VCH-Verlag; 2005
Reactions carried out with substoichiometric quantities of organic molecules as catalysts have recei...
Organocatalysis, catalysis with low-molecular weight catalysts in which a metal is not part of the c...
Enantioselective organocatalysis has quickly established itself as the third pillar of asymmetric ca...
Enantioselective organocatalysis has quickly established itself as the third pillar of asymmetric ca...
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