CARBYNE project is advancing a new reactivity platform for the transfer of monovalent carbons to organic matter. Key in our work is the generation of carbyne equivalents, reactive species never generated before, that shows completely new behaviours in the reactions with organic molecules. We are the pioneer and leading group discovering, developing, creating and questioning new science around the transfer of carbynes. Specifically, the type of bond activations performed are beyond the state-of-the-art in C–H and C–C bond activations.
Until the end of the project, it is expected to provide a palette of novel chemical reactivity and unique synthetic applications for the synthesis and functionalization of simple and complex molecules proposed in CARBYNE. More specifically, we will provide skeletal editing methods able to insert single-carbons in C–C bonds of organic molecules and provide a chemical space difficult or not possible to reach by current methodologies.
Such type of unexplored processes has witnessed a significant increase of interest over recent years, since are of high utility in the fields of drug/agrochemical discovery, chemical biology or material science. Skeletal editing processes were the skeleton of an organic molecule is modified may belong to the next paradigm shift in synthesis and our group is expected to be at the forefront of this exciting field.