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line, glovebox) Proficiency in standard characterization techniques (NMR, IR, MS; GC, GC-MS X-ray diffraction) Familiarity with catalytic reactions; experience with high-pressure equipment (autoclaves
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include doped oxides or composites engineered to enhance ionic mobility while suppressing electronic conductivity. A key objective will be to understand the relationships between chemical composition
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receive strong co-supervision on fundamentals and instrumental science at Harwell, from Prof Paul Donaldson (FLF) at CLF-Ultra in time-resolved spectroscopy3, Dr Ivan da Silva at ISIS-GEM in diffraction and
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-ray diffraction The samples will be further characteried with optical spectroscopy experiments, as well as magnetothermodynamic, magnetomechanical and magnetoacoustic measurements at mK-temperatures and
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diffraction analyses of pure substances, molten mixtures, or solidified mixtures after experiments. Dr. Blanka Kubíková. Keywords: molten fluorides, critical elements, physicochemical analysis, spectral and
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.: +33 (0)4 76 88 22 80, email: schulli@esrf.fr ), Expected profile A background in X-ray diffraction or electronics would be desirable and knowledge of programming (Python) would be an advantage. Teamwork
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operando X-ray absorption and diffraction, will provide fundamental insight into the relation between material composition, structure, redox and phase behaviour, ionic conductivity, and battery performance
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several real-time growth monitoring tools: RHEED (reflection high-energy electron diffraction), ellipsometry, wafer curvature measurements⁶, and an optical flux measurement system⁷. These tools are now
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. Conventional experimental techniques such as dilatometry, optical and electron microscopy, electron backscatter diffraction and x-ray diffraction with Rietveld refinement are available at the lab and can be used
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structural characterization of the corneocyte–lipid interface using state-of-the-art neutron diffraction and neutron reflectometry, combined with advanced optical microscopy approaches. The project is