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techniques (UV-Vis, FTIR, Raman, NMR, XRD, spectrophotometry, etc), and microscopy techniques (SEM, TEM, AFM, etc) necessary for structural and physical-chemical characterization of polymer and polymer-based
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autonomy in surface characterization techniques (e.g., XPS, SEM, AFM, etc.). - You have developed a strong background in deposition processes and possess knowledge of methodologies relevant
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). - Background in plasma deposition techniques (e.g., atmospheric pressure PECVD) and proven autonomy in surface characterization techniques (e.g., XPS, SEM, AFM, etc.). - You have developed a strong
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, FTIR, AFM Thermal analysis: DSC, DMA, TMA, TGA Electrochemical methods (e.g., Electrochemical Impedance Spectroscopy) are a strong plus 4. Conductive Polymers and Molecular Modeling Research
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) Low noise electrical transport measurements (room temperature and low temperature) along with the knowledge in related device physics. (iii) Investigation of novel physics using TERS, C-AFM, and related
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therapeutic strategy using genetically engineered MSCs to provide novel treatment options for two rare ocular surface diseases leading progressively to blindness. The project is funded by AFM-Téléthon and
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-filler composite fabrication Experience with at least several of the following techniques: SEM, SAXS, DLS, DSC, TGA, DMA, AFM, rheology, adhesion testing, FTIR, Raman, or comparable methods Evidence of
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, DLS, DSC, TGA, DMA, AFM, rheology, adhesion testing, FTIR, Raman, or comparable methods Evidence of scientific output (e.g., peer-reviewed publications, preprints, patents, software, industrial reports
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emphasizes hands-on operation of advanced instrumentation (AFM, nanoindentation, tribometers), training students, and ensuring continuity of laboratory operations. The scientist will collaborate
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, data acquisition hardware. Data Acquisition: Execute complex experiments involving high-bandwidth electrical measurements and advanced microscopy imaging (i.e., AFM and SEM) Signal Processing: Develop