Taming reactive (poly)alcohol derivatives in continuous flow systems

Evolution within Industrial Chemistry in recent days has led to the prohibition of hazardous reactions to avoid serious accidents in particular for high scale processes. The current emergence of continuous flow technology has completely redefined how we approach this kind of procedures and enabled the revival of the so-called “forbidden chemistry” by allowing safer processes to be developed. Within the context of this work we tackled the upgrading of various (poly)alcohol derivatives with reactive, corrosive, and toxic reactants or intermediates by implementing safe process tools and protocols that enable the efficient and quick production of various high value-added end-products. Two main topics are discussed herein i.e. the upgrading of biobased platform molecules and the handling of (chlorinated) organophosphorus species. The various research programs addressing these two themes allowed to safely produce essential cardiovascular medications and chemotherapeutics, critical polymeric assemblies with biomedical and flame-retardancy applications and privileged ligands for asymmetric catalysis using continuous flow systems.