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Hydrogénation électrochimique de liaisons C-O insaturées à l'aide de complexes moléculaires ; conversion du CO2 à l'aide de complexes moléculaires ; conversion du CO2
| Auteur / Autrice : | Muhammad Sohail |
| Direction : | Carole Duboc |
| Type : | Projet de thèse |
| Discipline(s) : | Chimie Physique Moléculaire et Structurale |
| Date : | Inscription en doctorat le 01/10/2024 |
| Etablissement(s) : | Université Grenoble Alpes |
| Ecole(s) doctorale(s) : | École doctorale chimie et science du vivant |
| Partenaire(s) de recherche : | Laboratoire : Département de Chimie Moléculaire |
| Equipe de recherche : CIRE |
Mots clés
Mots clés libres
Résumé
The project aims to develop efficient and selective catalysts for electrodriven hydrogenation reactions of unsaturated C-O bonds using molecular complexes and integrating the latter into functional electrodes. These reactions offer a pathway to access a variety of value-added chemicals and fuels through environmentally and energetically sustainable processes. The project will target both the conversion of CO2 and other small organic substrates. The successful candidate will work on two main axes: (i) the development of electrochemical hydrogenation reactions, including CO2 conversion to formate, in a homogeneous medium, and (ii) the immobilization of the most promising catalysts on electrodes, allowing for the benefits of homogeneous and heterogeneous catalysis to be combined