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and/or homogeneous catalysis; Practical experience in one or more of the following: organic/inorganic synthesis, structural characterization (NMR, MS and/or XRD, PXRD), electrochemistry and/or
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grow scientifically through collaboration with researchers from Radboud University, University of Groningen, and Utrecht University of Applied Sciences, supervisors from the Construction Management and
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soft materials, which often limit their precision, speed, and load-bearing capacity—all critical for real-world deployment. Addressing these limitations requires a new class of structures that combine
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mathematical modelling? Then you could be the ideal PhD candidate for this position. Self-assembled structures of colloidal particles and/or polymers at a liquid-air interface can be spontaneously generated when
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, fisherfolk, urban outdoor workers (street vendors in Mozambique and construction workers in Morocco), pastoralists, and displaced people—by transforming weather and climate data into actionable insights
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always, and we don’t yet know why. As our PhD candidate, you will dive into this puzzle, exploring how plant community structure, host quality, and fungal diversity interact to influence disease risk. You
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for manufacturing large structures such as fuselage and wing panels. Reliable process control is critical: underheating leads to poor bonding, while overheating causes polymer degradation. At the heart of process
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candidate, you will dive into this puzzle, exploring how plant community structure, host quality, and fungal diversity interact to influence disease risk. You will combine mesocosm experiments in
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affordable and durable long-duration energy storage. The approach is to use hierarchical structures, i.e. complex material layers that can be optimized to specific battery chemistries and flow phenomena from
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requirements in conflict zones and other industrial contexts; investigate optimal levels within the product structure for deploying AM in repair and spare parts support; integrate forward and reverse flows in