AURORE THIBON POURRET
Enseignante-Chercheuse
Affiliation
Université Grenoble Alpes
Équipe de recherche
DCM-CIRE
Domaines de recherche
Bio-Inorganic Chemistry, Bio-inspired catalysis, recognition and inhibition
Disciplines scientifiques
Chimie organique, minérale, industrielle
Thèse
Complexes de fer non-hémiques, modèles de catalyseurs d’oxydation biologiques. Synthèses et caractérisations de complexes Fe-oxo et Fe-hydroperoxo. Utilisation en catalyse d’hydroxylation d’hydrocarbures aromatiques.
sous la direction de sous la direction du Pr. F. Banse
from 01/10/2004 to 12/10/2007
sous la direction de sous la direction du Pr. F. Banse
from 01/10/2004 to 12/10/2007
Enseignement
- General Chemistry: Semesters 1 and 2
- Experimental Inorganic Chemistry: Semester 3
- Coordination Chemistry: Semester 5
- Mineral Chemistry: Semester 6
- Experimental Chemistry: Semester 7
- Experimental Inorganic Chemistry: Semester 3
- Coordination Chemistry: Semester 5
- Mineral Chemistry: Semester 6
- Experimental Chemistry: Semester 7
Van der Heyden, A., Chanthavong P., Angles-Cano E., Bonnet H., Dejeu J., Cras A., et al.
(2023). Grafted dinuclear zinc complexes for selective recognition of phosphatidylserine: Application to the capture of extracellular membrane microvesicles.
Journal of Inorganic Biochemistry. 239, 112065.
Bacher, F., Isaac J. A., Philouze C., Flot D., Thibon-Pourret A., & Belle C.
(2020). Synthesis of unsymmetrical 1,8-naphthyridine-based ligands for the assembly of tri-and tetra-nuclear copper(ii) complexes.
New J. Chem.. 44, 16713-16720.
Isaac, J. A., Thibon-Pourret A., Durand A., Philouze C., Le Poul N., & Belle C.
(2019). High-valence CuIICuIII species in action: demonstration of aliphatic C-H bond activation at room temperature.
Chem. Commun.. 55, 12711-12714.
Isaac, J.. A., Mansour A.-T.., David R., Kochem A.., Philouze C., Demeshko S.., et al.
(2018). Tetranuclear and dinuclear phenoxido bridged copper complexes based on unsymmetrical thiosemicarbazone ligands.
Dalt. Trans.. 47, 9665-9676.
Thibon-Pourret, A., Gennarini F., David R., Isaac J. A., Lopez I., Gellon G., et al.
(2018). Effect of Monoelectronic Oxidation of an Unsymmetrical Phenoxido-Hydroxido Bridged Dicopper(II) Complex.
Inorganic Chemistry. 57, 12364-12375.
Gennarini, F., Kochem A., Isaac J., Mansour A-T., Lopez I., Le Mest Y., et al.
(2018). Effect of ligand exchange on the one-electron oxidation process of alkoxo or phenoxo bridged binuclear copper(II) complexes.
Inorganica Chimica Acta. 481, 113 - 119.
Gennarini, F., David R., Lopez I., Le Mest Y., Reglier M., Belle C., et al.
(2017). Influence of Asymmetry on the Redox Properties of Phenoxo- and Hydroxo-Bridged Dicopper Complexes: Spectroelectrochemical and Theoretical Studies..
Inorg. Chem.. 56, 7707–7719.
Isaac, J., Gennarini F., Lopez I., Thibon-Pourret A., David R., Gellon G., et al.
(2016). Room-Temperature Characterization of a Mixed-Valent u-Hydroxodicopper(II,III) Complex..
Inorg. Chem.. 55, 8263–8266.
Aurore Thibon-Pourret received her PhD degree in chemistry in 2007 from the University of Paris XI under the supervision of Prof. Banse. She worked on the functional modelling of iron monooxygenases which are particularly able to hydroxylate aromatic hydrocarbons and also, on the synthesis and characterization of high-valent iron species evoked in catalytic cycle of metalloenzymes. She did her post-doctoral studies at the University of Minnesota and developed new lanthanide based sensors. Back in France in 2009, she joined the University of Strasbourg, where she was appointed assistant professor. Her main research interests focus on the design and mechanistic understanding of models of non-heme metalloenzymes. In 2015, she moved to the University of Grenoble-Alpes in the Department of Molecular Chemistry where she conducts her research in the “Reactivity and Mechanism of Bioinspired Complexes” subgroup. Her current interest focuses on two-centre bioinorganic models relevant to copper biological systems.
