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analytical laboratories; Experience with calorimetry, electrophoretic separations, SDS-PAGE, Western Blotting, DNA/RNA isolation, chromatography, microscopy, cell cultures, and basic bioinformatics skills
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or stress-induced conditions is vital for uncovering how cells adapt to challenging environments. This project will focus on investigating the molecular mechanisms behind ribosome maturation in bacteria and
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of multi-petawatt laser technologies. The primary objective of the project is to exploit the theory and large-scale numerical simulations to design a laser-based optical system capable of efficiently
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. complex material layers that can be optimized to specific battery chemistries and flow phenomena from the microscale up. The developed technologies will be validated in half-cells and full working batteries
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and communicate their research clearly and effectively. Preferred Additional Skills: Familiarity with the PyTorch Geometric library. Experience with molecular dynamics simulations or molecular docking
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leaflets. However, most studies to date have focused on symmetric bilayers. This project addresses this gap by integrating molecular dynamics simulations with experimental techniques such as solid-state NMR
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, cytosol). This project will use coarse-grained molecular simulations, complemented by in-house experimental validation, to gain molecular insights in the controlled system assembly and disassembly. Our goal