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English fluently and has obtained excellent results in the master phase. The PhD candidate should have a background (MSc/MA, preferably research master) in normative philosophy (ethics and/or epistemology
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catalysis, including NMR spectroscopy and chromatography, in photoredox chemistry and in electrosynthesis. Additionally, you will be involved in teaching, by supervising tutorials and bachelor/master theses
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by a relevant master research project experience or course study); a theoretical background and an interest in inland-water carbon cycling especially methane processes, biogeochemistry, redox reactions
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for bachelor and master students and graduate and post-graduate students. We strive to implement innovative technologies from the benchtop to the clinic, and to valorize our findings via initiating new spin-off
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and writes English fluently and has obtained excellent results in the master phase. The PhD candidate should have a background (MSc, research master) in international business, operations management
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; optimisation, systems and control; and sustainable chemical engineering and biotechnology. Qualifications The ideal PhD candidate for this position is a talented engineer with a Master's degree and has
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a talented engineer with a Master's degree and has the following traits: 1. A Master’s degree in Robotics, Mechatronics, Mechanical Engineering, or a closely related field, with hands-on experience
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PhD position on Closed-loop testing for faster and better EM evaluation of complex high-tech systems
read by a meter but this very, very slow and the main problem is the slow meter response time therefore the key question is how electronic products react on electromagnetic interference and we would like
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them further with the help of your supervisors’ feedback. You are willing to teach for part of your contractual working hours. You have earned a university bachelor and master degree, or an equivalent
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well as their cleanroom fabrication by silicon micromachining will be investigated. The main challenges are (1) the design and modelling of new sensor topologies, (2) development of the MEMS fabrication processes, (3