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& Pays de l'Adour, https://iprem.univ-pau.fr ), located in Pau (South-West of France). The expertise of IPREM lies in the knowledge and characterization of electrode materials surfaces and electrode
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and novel biosensing strategies, with the aim of creating new diagnostic tools for liquid biopsy. You will be in charge of: - developing a new version of an optofluidic fiber optimized for plasmonic
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functionalized surfaces. Key activities include: Modeling surface defects (e.g., vacancies, dopants, and functional groups) and their impact on catalytic charge transfer, in collaboration with experimental teams
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Montpellier (https://ctm.umontpellier.fr/ ) and runs its own electro-optic characterization setups. The group’s projects are supported by national (ANR) and European (Horizon Europe) funds. - main mission: In
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, photoluminescence, and SHG optical characterization of 2D materials would be approciated Website for additional job details https://emploi.cnrs.fr/Offres/CDD/UMR9001-FABOEH-006/Default.aspx Work Location(s) Number
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, optics). Perform advanced optical and electrical characterizations. Test fabricated devices. Communicate results internally. Document processes, write technical reports, and contribute to intellectual
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-functionalization of polyolefins to address current limitations in their chemical recycling. The research will be conducted jointly at the Laboratoire de Chimie des Polymères Organiques (LCPO) and the Institut des
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(OPVs). The MOLTECH-Anjou Laboratory (https://moltech-anjou.univangers.fr/en/ ) is a mixed CNRS (the French National Centre for Scientific Research) - University of Angers research unit which gathers
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Postdoctoral position (M/F) on impedance and dielectric study of solid/solid interfaces in batteries
impedance spectroscopy (BDS & EIS) are classical approaches for battery electrode characterization. Actually, BDS & EIS are one of the most practical analysis techniques, which can discriminate charge carrier
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characterization of plant fibers by using a robot with a small tip that can compress the plant fibers one by one. These works demonstrated the capability to efficiently generate experimental tests but, we now want