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understanding of molecular thermodynamics, and realize the importance of different types of properties in selecting and developing the most physically sound thermodynamic model for water and electrolytes
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for e-DAC. The research will involve molecular-level modeling and data-driven analysis to guide the design of redox-active capture materials, combined with experimental validation in electrochemical cells
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for lipid nanodisc formation capabilities by in vitro models . Teach and supervise BSc and MSc student projects. The successful candidate will have a degree in chemistry, molecular biology, or materials
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for catalysis of sustainable chemical processes. Visualizing Chemical Dynamics in Real Time Apply advanced atomic-resolution imaging and image analysis to uncover surface dynamics, reactivity and molecular
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molecular biology, systems and synthetic biology with bioprocess and metabolic engineering to improve both our understanding of these cell death processes as well as the survival and performance of different
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of analytical methods, digestion models, dietary modelling, and conducting consumer surveys will form part of the Doctoral Network’s tasks. The 12 PhD candidates will be based across seven different universities
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Job Description These days, the inner workings of molecules and materials can be probed and modelled by advanced simulation tools on modern computer architectures. However, the routine applications
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within a cell on the cell surface, and only a minor proportion of these (termed epitopes) are recognized by T cells. Likewise, antibodies (or B cell receptors) recognize their molecular targets, termed