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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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, dynamic settings, and transparency. Tasks and responsibilities You will: Conduct research within the scope of the PhD project; Complete and defend a PhD thesis within the official appointment duration (four
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computational model to capture the complex transport of gases, liquids, and charges in these porous structures, including the complex interfaces between them. Insights from the model will directly guide the
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global energy use and carbon emissions, the transition toward post-carbon design requires new approaches to materials and construction systems. This PhD project positions clay, one of humanity’s oldest
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new models and methods. In this PhD project, you will: develop dynamic supply chain design models that enable the repositioning of AM equipment based on Defence requirements in conflict zones and other
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remain. These include out-of-distribution performance, low-resource settings, reliability, dynamic settings, and transparency. Tasks and responsibilities You will: Conduct research within the scope
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probability theory and percolation models), and Prof. Hans Heesterbeek (Utrecht University, expert in infectious disease dynamics and mathematical biology). Together, we form a collaborative network of
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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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account for these uncertain drivers and their dynamic interaction with changes in intended use. As part of the NWO-funded SPINES project, you will address this challenge by identifying those interplays
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evolution of collective behaviour. You will deploy a multi-camera 3D tracking system in natural settings to study insect flight and swarming dynamics across species. This will involve identifying swarming