Organocatalysis makes use of small organic molecules to activate reaction partners and is nowadays an established catalytic platform; in fact, despite the relatively young age, its potential and powerful impact is widely appreciated. Importantly, organocatalysis, along with metal- and biocatalysis, is routinely screened in industry during the selection process to target compounds of interest. Among these, chiral amines are one of the most important class of target molecules in industry. Herein we present selected approaches in organocatalysis to access chiral amines both from academia and industry
Majority of drugs act by interacting with chiral counterparts, e.g., proteins, and we are, unfortuna...
Nowadays, the development of new enantioselective processes is highly relevant in chemistry due to t...
In the year 2000, Accounts of Chemical Research published a landmark special edition on the timely s...
Organocatalysis makes use of small organic molecules to activate reaction partners and is nowadays a...
This chapter covers the emerging utilization of organocatalytic methodologies in industrial settings...
This chapter covers the emerging utilization of organocatalytic methodologies in industrial settings...
This chapter covers the emerging utilization of organocatalytic methodologies in industrial settings...
Catalysis is, often, the preferred approach to access chiral molecules in enantioenriched form both ...
Catalysis is, often, the preferred approach to access chiral molecules in enantioenriched form both ...
none2noCatalysis is, often, the preferred approach to access chiral molecules in enantioenriched for...
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...
Chemical synthesis is one of the key technologies underlying modern drug discovery and development. ...
The philosophy of organocatalysis is based on the utilization of organic compounds to catalyze organ...
Majority of drugs act by interacting with chiral counterparts, e.g., proteins, and we are, unfortuna...
Majority of drugs act by interacting with chiral counterparts, e.g., proteins, and we are, unfortuna...
Nowadays, the development of new enantioselective processes is highly relevant in chemistry due to t...
In the year 2000, Accounts of Chemical Research published a landmark special edition on the timely s...
Organocatalysis makes use of small organic molecules to activate reaction partners and is nowadays a...
This chapter covers the emerging utilization of organocatalytic methodologies in industrial settings...
This chapter covers the emerging utilization of organocatalytic methodologies in industrial settings...
This chapter covers the emerging utilization of organocatalytic methodologies in industrial settings...
Catalysis is, often, the preferred approach to access chiral molecules in enantioenriched form both ...
Catalysis is, often, the preferred approach to access chiral molecules in enantioenriched form both ...
none2noCatalysis is, often, the preferred approach to access chiral molecules in enantioenriched for...
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...
Chemical synthesis is one of the key technologies underlying modern drug discovery and development. ...
The philosophy of organocatalysis is based on the utilization of organic compounds to catalyze organ...
Majority of drugs act by interacting with chiral counterparts, e.g., proteins, and we are, unfortuna...
Majority of drugs act by interacting with chiral counterparts, e.g., proteins, and we are, unfortuna...
Nowadays, the development of new enantioselective processes is highly relevant in chemistry due to t...
In the year 2000, Accounts of Chemical Research published a landmark special edition on the timely s...
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