Add to ORKGNovel organocatalytic reactions have been presented, specially focused on the preparation of chiral products of pharmaceutical interest. Metal-free reactions in batch and in micro(meso)reactors will be discussed, the advantages of flow chemistry processes over the batch reactions will be highlighted
Continuous flow reactors have earned their place as an important technology in organic synthesis, re...
Catalysis is, often, the preferred approach to access chiral molecules in enantioenriched form both ...
Flow chemistry is typically used to enable challenging reactions which are difficult to carry out in...
Metal-free reactions in batch and in micro(meso)reactors will be discussed, the advantages of flow c...
The last decade has witnessed a huge growth in the use of flow chemistry as well established procedu...
Organocatalytic reactions in batch and in micro(meso)reactors will be discussed, the advatages of fl...
Continuous-flow systems have emerged as a powerful technology for performing chemical transformation...
Recently, application of the flow technologies for the preparation of fine chemicals, such as natura...
Recently developed organocatalytic stereoselective transformations will be presented, including reac...
New catalytic reaction performed under continuous flow conditions will be presented and discussed
Recently developed technology-assisted stereoselective reactions will be discussed, including reacti...
Continuous-flow systems have emerged as a powerful technology for performing chemical transformation...
Continuous-flow systems have emerged as a powerful technology for performing chemical transformation...
Recently developed organocatalytic stereoselective transformations using polymer-based packed bed an...
Stereoselective reactios in (micro)-mesoreactors and catalytic reactors will be discussed
Continuous flow reactors have earned their place as an important technology in organic synthesis, re...
Catalysis is, often, the preferred approach to access chiral molecules in enantioenriched form both ...
Flow chemistry is typically used to enable challenging reactions which are difficult to carry out in...
Metal-free reactions in batch and in micro(meso)reactors will be discussed, the advantages of flow c...
The last decade has witnessed a huge growth in the use of flow chemistry as well established procedu...
Organocatalytic reactions in batch and in micro(meso)reactors will be discussed, the advatages of fl...
Continuous-flow systems have emerged as a powerful technology for performing chemical transformation...
Recently, application of the flow technologies for the preparation of fine chemicals, such as natura...
Recently developed organocatalytic stereoselective transformations will be presented, including reac...
New catalytic reaction performed under continuous flow conditions will be presented and discussed
Recently developed technology-assisted stereoselective reactions will be discussed, including reacti...
Continuous-flow systems have emerged as a powerful technology for performing chemical transformation...
Continuous-flow systems have emerged as a powerful technology for performing chemical transformation...
Recently developed organocatalytic stereoselective transformations using polymer-based packed bed an...
Stereoselective reactios in (micro)-mesoreactors and catalytic reactors will be discussed
Continuous flow reactors have earned their place as an important technology in organic synthesis, re...
Catalysis is, often, the preferred approach to access chiral molecules in enantioenriched form both ...
Flow chemistry is typically used to enable challenging reactions which are difficult to carry out in...