Small organic molecules are increasingliy used as asymmetric catalysts, complementing the enzymes and metal complexes traditionally used to make chiral products
Review on a very fast moving area of research: Catalysis with chiral secondary amines (asymmetric am...
Contains fulltext : mmubn000001_234157054.pdf (publisher's version ) (Open Access)...
Disulfonimides have recently emerged as powerful (pre)-catalysts, especially in Lewis acid organocat...
Asymmetric reactions with organic molecules as catalysts (organocatalysis), are of great utility ...
Chemical synthesis is one of the key technologies underlying modern drug discovery and development. ...
In the year 2000, Accounts of Chemical Research published a landmark special edition on the timely s...
Chirality plays a pivotal role in the fields of biological, chemical, pharmaceutical and material sc...
Several small organic molecule catalysts are reminiscent of natural enzymes in their mode of action ...
It is known that many physiologically active substances are chiral molecules containing asymmetric c...
The synthesis of compounds or chiral building-blocks with the desired configuration is one of the gr...
Driven by the ever- increasing demand for nonracemic chiral chemicals, the devel-opment of effi cien...
Molecular catalysts consisting of a metal or metal ion and a chiral organic ligand are widely used f...
For a long time, there seemed to have been an unwritten rule that organocatalysts, in contrast to tr...
Organocatalysis makes use of small organic molecules to activate reaction partners and is nowadays a...
New approaches to achieve control of molecular chirality have enabled the development of methods for...
Review on a very fast moving area of research: Catalysis with chiral secondary amines (asymmetric am...
Contains fulltext : mmubn000001_234157054.pdf (publisher's version ) (Open Access)...
Disulfonimides have recently emerged as powerful (pre)-catalysts, especially in Lewis acid organocat...
Asymmetric reactions with organic molecules as catalysts (organocatalysis), are of great utility ...
Chemical synthesis is one of the key technologies underlying modern drug discovery and development. ...
In the year 2000, Accounts of Chemical Research published a landmark special edition on the timely s...
Chirality plays a pivotal role in the fields of biological, chemical, pharmaceutical and material sc...
Several small organic molecule catalysts are reminiscent of natural enzymes in their mode of action ...
It is known that many physiologically active substances are chiral molecules containing asymmetric c...
The synthesis of compounds or chiral building-blocks with the desired configuration is one of the gr...
Driven by the ever- increasing demand for nonracemic chiral chemicals, the devel-opment of effi cien...
Molecular catalysts consisting of a metal or metal ion and a chiral organic ligand are widely used f...
For a long time, there seemed to have been an unwritten rule that organocatalysts, in contrast to tr...
Organocatalysis makes use of small organic molecules to activate reaction partners and is nowadays a...
New approaches to achieve control of molecular chirality have enabled the development of methods for...
Review on a very fast moving area of research: Catalysis with chiral secondary amines (asymmetric am...
Contains fulltext : mmubn000001_234157054.pdf (publisher's version ) (Open Access)...
Disulfonimides have recently emerged as powerful (pre)-catalysts, especially in Lewis acid organocat...
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