CORDIS Project
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This project aims to enhance selectivity in chemical synthesis by utilizing non-covalent interactions. It focuses on controlling regioselectivity and site-selectivity in reactions, particularly in functionalizing carbon-hydrogen bonds, to improve the efficiency of synthetic processes.
Nature has been employing attractive non-covalent interactions for billions of years to enable the chemical synthesis machinery of life that is enzymatic catalysis.
In comparison, synthetic chemists have only very recently started to employ the very strongest, hydrogen bonds and ion pairs, to control selectivity in synthetic routes.
This has occurred predominantly in the rapidly growing of enantioselective organocatalysis and has quickly had a huge impact.
The vision of this grant is to take the…
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