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added to perturb the system to enhance or supress nucleation? The project will include a wide range of methods such as protein expression and purification, optical and electron microscopy, fluorescence
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experimental methods such as optical and electron microscopy, single-molecule fluorescence methods, microfluidic approaches to diffusion, and scattering methods. Investigation of physical-chemical mechanisms
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understanding of the governing mechanisms. Description of the work duties: Design and operate a spray of aluminium/steam mixtures. Perform optical measurements of the spray for particle size and distribution
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, X-ray tomography, and optical and electron microscopy. Specific tasks will be preparation and conductance of experimental campaigns at synchrotron facilities such as MAX IV (Lund) or ESRF (Grenoble
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, and will be executed in an environment offering access to instruments for state-of-the art methods, including optical spectroscopy, scattering techniques, surface-based techniques, single molecule
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skills. Other qualifications: Experience of working with Image analysis Custom-built optical microscopy set-up. Nanostructured surfaces Microfluidic design, experiment and/or modeling Methods from
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world class performance thanks to the high-performance optics, experiment setup instrumentation, control system and computing resources. MicroMAX is focusing on serial crystallography and time-resolved