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Field
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bulk crystals, through thin layers and membranes, down to single molecular layers and their heterostructures? The aim of this project is to address this challenge by investigating the nanomechanical
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. Prof. Alex Ganose at Imperial College London with the possibility of a 1-2 month exchange stay to develop automated computational workflows for disordered crystals. The developed models will then be
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characterise new phosphines and their nickel complexes, using Schlenk techniques, the glovebox, NMR spectroscopy, mass spectrometry, single-crystal X-ray diffraction and other techniques that might be deemed
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/Responsibilities: Conduct neutron scattering, resonant ultrasound spectroscopy, and possibly Mössbauer spectroscopy experiments (e.g., lattice dynamics, crystal structure, disorder, thermal diffuse scattering
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electromechanical quantum chips are connected via superconducting cables at millikelvin temperatures. The vibrating membranes will be realized with a phononic crystal radiation shield, enabling ultrahigh mechanical
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the impact of inorganic aerosols on sunlight scattering and droplet/ice crystal nucleation. The researcher will interact with graduate students and postdoctoral researchers in the research group and in
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leaching, solvent extraction, ion exchange, electrodialysis, membrane separation, and crystallization or precipitation. Position Requirements Recent or soon-to-be-completed PhD (typically completed within
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demonstrated expertise in biomaterials synthesis and tissue engineering, particularly in biomimetic gradient scaffold technologies experience in 3D (bio)printing techniques such as Liquid crystal display
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Materials Design. This environment will facilitate the development of new skills and the demonstration of creativity and leadership. Expertise in structure solution using powder and/or single crystal X-ray
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13 Feb 2026 Job Information Organisation/Company CEA Department IRIG Research Field Physics » Solid state physics Engineering » Materials engineering Physics » Crystal growth Engineering