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anharmonic DFT calculations of PAHs available in the team You will implement neural networks based on PAH molecular structure to predict their anharmonic spectrum You will test the accuracy of topological
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(e.g., salinity dynamics, fish migration), economy (e.g., trade, businesses and resource flows), technology (e.g., infrastructure mapping, urban plans/construction), as well as potential sources of risks
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values for the hydrogen transition. Values will be understood in a pluralistic view as situated in, and interactive with, specific institutional, geographic, market and technological contexts
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. An important focus of our research is how these abiotic-biotic interactions create value for society, following for example the “Building with Nature” paradigm or investigating sustainable sources of marine
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related to learning, behavior, and interactions between humans and systems using advanced quantitative methods. You will be part of a team developing and testing VR simulations. You will perform and conduct
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. To that end, we educate innovative students in broad Bachelor's and specialist Master's programmes with a strong research component. Our scientists conduct ground-breaking fundamental and applied research in
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-Ready Solutions for Viable Supply Chains) addresses this challenge. Its goal is to move beyond reactive crisis management and provide a structured approach for building supply chains that are resilient
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to important problems of the 21st century. To that end, we educate innovative students in broad Bachelor's and specialist Master's programmes with a strong research component. Our scientists conduct ground
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the networks of organizations. Sociology investigates the social structures of societies and the way these evolve. Sociologists in Rotterdam focus, inter alia, on processes of globalization and
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structured approach for building supply chains that are resilient, sustainable, and regulation-ready. The project develops methods and decision-support tools that integrate resilience and compliance directly