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, dynamic, and international, with state-of-the-art facilities. There is a relatively large and social group of PhD students ready to welcome you. You will have the opportunity to perform cutting-edge
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areas of physics. You will develop a chip-based levitation system that can be embedded in state-of-the-art electron microscopes—providing a unique platform to detect electrons after interacting with
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. The current state of the art for this solver has shown excellent performance both timewise and in precision, but it is only applicable to a part of the challenges encountered in wafer metrology. As such, we
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within FlexMobility will focus on the underlaying assignment and routing algorithms for real-time operation of the vehicle fleet and the multi-objective design of the mixed transporation network. Our key
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embedded in state-of-the-art electron microscopes—providing a unique platform to detect electrons after interacting with the moving nanoparticle. This setup will enable you to apply strong nonlinear forces
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understanding of the fundamental dynamics in the operation of contemporary and future plasma-based sources of extreme-ultraviolet (EUV) light for nanolithography. In our group’s research we, for example
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transportation systems may include a fleet autonomous cars, vans, and buses. This PhD position within FlexMobility will focus on the underlaying assignment and routing algorithms for real-time operation of
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catalysts on gas-diffusion electrodes and study their mechanism and performance in electrochemical reduction to ethylene and formaldehyde. For mechanistic studies and performance testing, we utilize advanced
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electrochemistry. You will use supramolecular strategies to immobilize molecular CO2RR catalysts on gas-diffusion electrodes and study their mechanism and performance in electrochemical reduction to ethylene and
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econometrics, and network analysis. Information Buyer-supplier relationships are critical drivers of performance for high-tech companies. How can organizations manage the interdependencies in supply chain