Biotechnologies) in Reims (France). She has completed her PhD in green chemistry from University Claude Bernard (Lyon, France) where she studied the applications of isohexides as a new biobased platform for organocatalysis, developing an expertise in organic synthesis. She joined Professor Florent Allais' research group (Chair ABI) in 2016 for a post-doctoral fellowship dedicated to the use of syringaresinol as a platform molecule for the production of functional antiradical/antioxidant additives as well as monomer for polymerizations. Applications to epoxy-amine resins and non-isocyanate polyurethanes have shown the high interest of syringaresinol as a genuine renewable and safer replacement to toxic bisphenol-A. Those results have been published in peer-reviewed journals and presented in international congresses (ACS Philadelphia 2016 and ISGC La Rochelle 2017). Biotechnologies) in Reims (France). She has completed her PhD in green chemistry from University Claude Bernard (Lyon, France) where she studied the applications of isohexides as a new biobased platform for organocatalysis, developing an expertise in organic synthesis. She joined Professor Florent Allais' research group (Chair ABI) in 2016 for a post-doctoral fellowship dedicated to the use of syringaresinol as a platform molecule for the production of functional antiradical/antioxidant additives as well as monomer for polymerizations. Applications to epoxy-amine resins and non-isocyanate polyurethanes have shown the high interest of syringaresinol as a genuine renewable and safer replacement to toxic bisphenol-A. Those results have been published in peer-reviewed journals and presented in international congresses (ACS Philadelphia 2016 and ISGC La Rochelle 2017).

Her research focus on the applications of isohexides as a new biobased platform for organocatalysis