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disciplines: - Shock physics, - Phase transition mechanisms, - Materials science. They must also be proficient in one or more of the following techniques: - X-ray diffraction, - Velocimetry, - Thermomechanical
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synthesised in situ using a state-of-the-art pulsed laser deposition system. Key characterisations include X-ray diffraction for structural properties and temperature-dependent magneto-optical properties
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for oxidation and reduction reactions. The research will focus on: Developing synthetic routes to robust new chelating and bifunctional ligands. Employing advanced spectroscopic, electrochemical and X-ray
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, neutron or X-ray scattering, or strongly correlated materials. Experience with computational / theoretical modeling and scientific programming (e.g. Julia, Python, C/C++). Familiarity with high-performance
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thermal analysis (DSC/TGA). Hands-on experience in materials characterization using tools such as particle size analysis, optical microscope, scanning electron microscopy, X-ray diffraction. Strong
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candidate who has the ability to synthesize hybrid materials and organic linkers, perform conductivity measurements, perform spectroscopy measurements, and perform X-ray diffraction analysis. The candidate