Up2Europe est un accélérateur d’idées pour des projets de coopération.
La plateforme Ma Région Sud fait partie de l'écosystème de Up2Europe qui permet de booster la coopération à un niveau supérieur!
Besoin d'aide ? La Région Sud vous accompagne
Laissez-vous guider par notre équipe d'experts ! Saisissez votre mail et nous reviendrons vers vous rapidement
Téléchargez la photo pour promouvoir ce projet européen
ChemCatSusDe:
Chemical Catalysis towards a Sustainable Development:
Transformation of Bio-Resources and Atom-Efficient Reactions
Catalyzed by Bio-Metals
ChemCatSusDe:
Chemical Catalysis towards a Sustai.. (ChemCatSusDe)
ChemCatSusDe:
Chemical Catalysis towards a Sustainable Development:
Transformation of Bio-Resources and Atom-Efficient Reactions
Catalyzed by Bio-Metals
(ChemCatSusDe)
Date du début: 1 sept. 2011,
Date de fin: 28 févr. 2013
PROJET
TERMINÉ
ChemCatSusDe addresses some of the industrial and economical issues of our society: fossil fuel depletion, use of renewable resources derived from the biomass, environmentally friendly chemistry for a sustainable future. At its core lies the versatility of complexes of zinc, magnesium, calcium, strontium and barium (the so-called bio-metals): green catalysts able to perform both the polymerisation of cyclic esters and highly atom-efficient hydroelementation reactions will be designed.The objectives defined by the researcher and the host institution in Rennes are:- Synthesis of well-defined complexes of the large alkaline-earth (Ca, Sr, Ba). The coordination chemistry of these metals in the presence of chelating, mono-anionic ligands will be studied. Owing to the extreme oxophilic nature of these elements, these catalytic precursors are expected to display excellent activities. The same synthetic strategies will also be extended to the preparation of complexes of the smaller zinc and magnesium, which display an excellent compromise between stability and catalytic activity- Use of these complexes for the catalytic immortal ring-opening polymerisation of cyclic monomers derived from renewable bioresources for the production of biocompatible and/or biodegradable polymers. All catalysts will be used for the polymerisation of lactide and monomers such as morpholinediones and b- or g-valerolactones- Hydroelementation of terminal alkenes catalyzed by heteroleptic amido-alkaline-earth complexes. Catalysts for the 100% atom-efficient hydrosilylation, -phophination and -amination of unsaturated substrates will be prepared- Study of the stability and reactivity of the targeted heteroleptic complexes by theoretical calculations: the design of catalytic systems will be elaborated and/or optimized according to preliminary calculations or those based on experimental structural data.- Development of long-term collaborations between the host and return institutions
Accédez au prémier réseau pour la cooperation européenne
Se connecter
Bonjour, vous êtes sur la plateforme Région Sud Provence-Alpes-Côte d’Azur dédiée aux programmes thématiques et de coopération territoriale. Une équipe d’experts vous accompagne dans vos recherches de financements.
Contactez-nous !
Contactez la Région Sud Provence-Alpes-Côte d'Azur
Vous pouvez nous écrire en Anglais, Français et Italien