The major goal of this application is to develop the catalytic generation of conceptually-novel carbyne equivalents and related species, and to study their reactivity towards organic matter. The catalytic activation of designed sources will reveal new reactivity rules at carbon that have been missing, not only in the design and discovery of new chemical reactions, […]
Light-Driven Asymmetric Organocatalysis
Visible light photocatalysis and metal-free organocatalytic processes are powerful strategies of modern chemical research with extraordinary potential for the sustainable preparation of organic molecules. However, these environmentally respectful approaches have to date remained largely unrelated. The proposed research seeks to merge these fields of molecule activation to redefine their synthetic potential. Light-driven processes considerably enrich […]
Towards a Greener Reduction Chemistry by Using Cobalt Coordination Complexes as Catalysts and Light-driven Water Reduction as a Source of Reductive Equivalents
The development of alternative greener synthetic methods to transform renewable feedstocks into elaborated chemical structures mediated by solar light is a prerequisite for a future sustainable society. In this regard, this project entails the use of visible light as driving force and water as a source of hydrides for the synthesis of high-value chemicals. The […]