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on elucidating the mechanism of (electro)catalytic reactions. The electrochemistry team's research is devoted to electrocatalysis and electro(catalytic)synthesis for sustainable processes and the
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, logistics, and digitalisation. The PhD candidate will develop digital factory models, simulations, and planning tools that support the design and operation of circular AM-enabled factories. Crucially
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. Where you will be working You will work within the Physical-Organic Chemistry department as part of the Big Chemistry Robotlab team. At the Robot Lab, a team of chemists, computer scientists and engineers
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with next generation high-tech systems? The main challenge lies in the reliable operation of the entire system, where many interconnected modules affect each other. In this project, you will be designing
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of modeling and control strategies for operation in complex biological environments. Particular attention will be given to scalable fabrication and integration of photonic sensing or actuation. The project is
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and understanding of complex biological systems and biodiversity. You will get the opportunity to learn about both simple and complex biological models, computer programming, data visualisation, and
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broad set of disciplines, including architectural design, urban planning, building technology, social sciences, process management, and geo-information science. The faculty works closely with other
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are anchored in historically developed rural-urban relationships, and affiliated biophysical, cultural and socio-economic characteristics of the region. You use the RTD processes and (stakeholder) reflections
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take charge of your own learning process . An excellent technical infrastructure, on-campus children's day care and sports facilities. An allowance for commuting, working from home and internet costs. A
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and current quantum technologies, motivating the need for a powerful and practical alternative. In 2020 we introduced the concept of reconfigurable nonlinear processing units: RNPUs, Nature 577, 341-345