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4-year Group Leader (Assistant Professor) Position in Colloidal Chemistry Related to new ESS Ligh...
join a dynamic research environment and will have access to in-house small-angle X-ray scattering (SAXS) and light scattering (LS) infrastructure at Department of Chemistry, as well as all other research
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their fascinating light scattering properties can make individual molecules directly visible. The similar length scales of optical and geometrical confinement combined in these devices will revolutionize both
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: Experience in protein or biologics formulation Knowledge of SAXS, light scattering, or other solution-state biophysical characterization methods Familiarity with AI-driven modeling tools (e.g., AlphaFold
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), dynamic light scattering (DLS), transmission electron microscopy (TEM). EV cargo characterisation – cytokine analysis, metabolomics, proteomics. Cell analysis – PRC, western blot, flow cytometry, advanced
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Correlation Spectroscopy (XPCS), Quasi-Elastic Neutron Scattering (QENS) and Dynamic Light Scattering (DLS) techniques to study the structure and dynamics of proteins in solutions. Qualification and skills
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sources Structure determination of biomolecules by NMR, Mass Spectroscopy, Dynamic Light Scattering, etc. Engineering and expressing recombinant proteins using various hosts (E. coli, yeast, mammalian cells
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distribution. For ideal sources and optical surfaces we can solve the so-called Monge-Ampère equation to find the freeform shapes of the surfaces. Scattering elements however send light rays in multiple
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the optical and x-ray laser pulses at the beginning of each experiment Requirements PhD-degree in experimental physics or chemistry Experience in ultrafast material dynamics studies using THz-/MIR- excitations
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nanostructures using ultrashort laser pulses, and to measure, understand, and ultimately control the resulting ultrafast dynamics with spatial resolution. This approach, paired with simple models, will provide new
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the dynamics of ultracold collisions and the properties of ultracold molecules. They will develop quantum-mechanical scattering and bound-state methods and apply them to a variety of ultracold atomic and