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, including X-Ray diffraction, scanning electron microscope, atomic force microscopy Additional comments NA Website for additional job details https://emploi.cnrs.fr/Offres/CDD/UMR137-JULGRO0-024/Default.aspx
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Join us at the Laboratory of Electronics Material and Systems, Department of Microtechnology and Nanoscience, and contribute to research on novel solutions for cooling of advanced electronics. About
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. Of particular importance are reliable, radiation resistant low-power electronic systems and miniaturization of these. Project description As part of a Swedich National Space Agency-funded and Space
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PROJET-PEPR : MOF composites for the overall CO₂ reduction through panchromatic photocatalysis (M/F)
the solar spectrum, allowing efficient CO2RR using water as a sacrificial electron donor. CO₂ is often regarded as a cost-free C1 feedstock, making its conversion into high value-added synthetic fuels
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Science, develops methods and quantitative approaches to investigate nano- and microstructural features across soft matter, biological tissues, as well as metals and alloys. Our work combines X-ray and
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cutting-edge research by using its strong interdisciplinarity; it combines both experimental and theoretical expertise, spanning from the investigation of surface plasmons and the design of nano-structured
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successful candidate(s) will join the world-leading Advanced Nano Materials, Structures and Applications (ANMSA) Group, a hub for innovation in the development of novel micro- and nanostructures and
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manufacturing and design; computing technologies; health innovation and translational medicine; nano materials and devices; and sustainable systems. Our brilliant researchers attract funding from government and
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The Innovative Electron Microscopy Department develops and applies electron microscopy methodologies for nanoscale and atomic-resolution characterization of functional materials and their interfaces
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pattern. According to the Maxwell-Garnett effective medium model, the binary patterns mimic a continuous gradient index distribution for wavelengths much larger than the size of a single nano-rod. This