-
project on numerical modeling by finite elements of the compression of polymer foams. It will be necessary to generate microstructures, mesh them and calculate their behavior to estimate the relation
-
internship will consist of the synthesis of acrylate-urethane monomers and polymers with reduced environmental impacts, in particular using NIPU (non-isocyanate polyurethanes) access routes. The aim is to
-
Master's degree in Polymer Science. Team 1, entitled "Catalyses and polymerization engineering", is headed by Frédéric Peruch. The team develops alternative strategies for the synthesis of "tailor-made
-
of polymerization, i.e., creating stereocontrolled sequences using lactide in its racemic version. The aim is thus to design bio-sourced polymers that are easily degradable and have modulable thermomechanical
-
polymer reinforcements. Membrane-electrode assemblies will also be characterized. - preparation of nanostructured polymer reinforcement - preparation of composite anion exchange membranes - characterization
-
of Research Experience1 - 4 Research FieldPhysics » BiophysicsYears of Research Experience1 - 4 Additional Information Eligibility criteria With a PhD in polymer chemistry, the candidate must have solid skills
-
in a cleanroom of microelectrodes necessary to electro-co-polymerize on chips. - Chemical and morphological surface characterization of different sensitive conducting polymers co-integrated on them
-
: Micro-nano fabrication, Plasma etching, Resist, Biosourced polymers, chitosan, alginate. References Caillau et al, J. Vac. Sci. Technol. (2017), 35, 06GE01 Sysova et al, ACS Appl. Polym. Mater. (2022), 4
-
researcher to develop highly performant hybrid scintillators based on rare earth doped nanoparticles embedded in polymer. The contract is offered for a period of 12 months that can be extended. The applicant
-
part of this project, porous ceramics are prepared by Polymer Impregnation Pyrolysis (PIP), a route allowing easy control of the chemical composition and shaping. On the surface of the objects