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Sophie LEGEAI
Maître de Conférences
17%
Libre accès
103
Documents
Affiliations actuelles
- 104710
Identifiants chercheurs
- sophie-legeai
- 0000-0002-0901-1799
- IdRef : 070289093
Présentation
I carry out my research activities in the team Chemistry and Electrochemistry of Materials of the Jean Lamour Institute (IJL – UMR CNRS 7198, University of Lorraine (UL), France, https://ijl.univ-lorraine.fr/equipes/equipe-chimie-et-electrochimie-des-materiaux). I have a strong expertise in the field of electrochemistry (20 years) and an extensive knowledge in ionometallurgy (ionic liquids and deep eutectic solvents) (15 years). My teaching activities deal mainly with electrochemistry, corrosion, solution chemistry and recycling of metals, for Bachelor and Master level students.
I defended my PhD in analytical electrochemistry in 2002 and worked then as a post-doctoral fellow in Paris VI (corrosion) and Lyon I Universities (analytical electrochemistry). In 2005, I worked as temporary assistant professor in the green chemistry research group of the Environment and Molecular Chemistry Laboratory (Polytech Savoie) where I studied the physicochemical characterization (chemical and electrochemical properties) of new developed ionic liquids. I joined the Jean Lamour Institute in September 2006 where I initiated a thematic concerning the electrodeposition of new high performances thermoelectric materials in ionic liquids (rare-earth doping and nanostructuration by solvent templating effect). Since 2009, I develop ionometallurgical treatments (liquid-liquid extraction/electrodepostion coupling, electrochemical leaching/eletrodeposition coupling) in ionic liquids and deep eutectic solvents by electrochemical techniques, with a focus on WEEE (Ta, Au, Pd, Pt, Ag). Whatever the targeted application, my experimental approach of electrochemical processes is centered on a thorough study of electrochemical reactions mechanisms, thermodynamics and kinetics.
I supervised several PhDs in electrochemistry: 4 PhDs in the field of ionometallurgy for recycling, and 3 PhDs in thermoelectric nanomaterials synthesis using ionic liquids. In the field of ionometallurgy for recycling, I was involved in the national ANR project SILEXE, in a national CEATech project, an I am currently the coordinator of the national ANR project EE4Precious.
Since 2021, I am involved in the implementation of open science in my laboratory, as "Data ambassador" (https://scienceouverte.univ-lorraine.fr/en/research-data-ul/data-ambassadors/).
Domaines de recherche
Chimie
Compétences
ionic liquids
deep eutectic solvents
electrochemistry
ionometallurgy
nanostructuration
recycling of metals
WEEE
solution chemistry
Publications
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Le recyclage des cartes électroniquesMichel Cathelineau. Le recyclage, enjeu pour l’économie circulaire, ISTE Group, pp.133-157, 2023, 978-1-78948-162-4. ⟨10.51926/ISTE.9162.ch6⟩
Chapitre d'ouvrage
hal-04460294v1
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Procédé de récupération sélective de l'or par voie de chimie verte à partir d'un élément contenant de l'or et un platinoïdeFrance, N° de brevet: FR21-09750, EP 4 151 763 A1. 2021
Brevet
hal-04225356v1
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Processes for extracting and recovering tantalum present in an acid aqueous phase by means of an ionic liquid, and use of such an ionic liquid for extracting the tantalum from an acid aqueous phaseFrance, Patent n° : FR3040060 (A1) / WO2017025547 (A1). 2017
Brevet
hal-02162092v1
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PROCÉDÉ DE RÉCUPÉRATION DE PLATINE, PAR VOIE ÉLECTROCHIMIQUE, À PARTIR D'UN MATÉRIAU DANS LEQUEL IL EST CONTENUFrance, N° de brevet: FR-16 56293. 2016
Brevet
hal-01494634v1
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Procédés d'extraction et de récupération du tantale présent dans une phase aqueuse acide au moyen d'un liquide ionique, et utilisation d'un tel liquide ionique pour extraire le tantale d'une phase aqueuse acideFrance, N° de brevet: FR1557636. 2015
Brevet
hal-01494617v1
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DMP du projet "Electrolixiviation-Electrodépôt pour la valorisation des métaux précieux contenus dans les déchets d'équipements électriques/électroniques"Université de Lorraine. 2023, pp.7
Rapport
hal-04248012v1
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EE4PreciousUniversité de Lorraine. 2021, pp.7
Rapport
hal-04248021v1
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