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, chemistry, physics, electrical engineering, mechanical engineering, synthetic biology, material science, computer science, micro- and nanotechnology) from a recognised academic institution and the acceptance
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university degree (diploma, master or similar) in Control, Mechanical or Aerospace Engineering, Physical Sciences, Wind Energy, Renewable Energy or equivalent, aptitude and willingness to pursue a PhD with
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tools. Collaborate closely with an experimental enzymology PhD student to validate your models in the lab. This is an excellent opportunity to contribute to the future of enzyme engineering
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Description TUD Dresden University of Technology, as a University of Excellence, is one of the leading and most dynamic research institutions in the country. For TUD diversity is an essential
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opportunity to contribute to cutting-edge research aimed at understanding microbiome-driven mechanisms and developing novel strategies for disease prevention and treatment. You will collaborate with renowned
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/living-in-stuttgart/finances/index.html Academic admission requirements An engineering (mechanical or electrical), information or physical science, or business administration university degree is mandatory
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fundamental ideas and bringing them into applications Detailed knowledge of quantum mechanics and experience with quantum information theory Ideally first experiences with random unitaries and/or classical
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the renewable energy colleagues at IMT Elucidation of the dominant separation mechanisms, to achieve both fundamental understanding and optimized process performance The PhD project will be predominantly
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? What are the most suitable photocatalytic material characteristics for micropollutant degradation in water and what are selection criteria / tools? What are the mechanisms behind membrane photocatalysis
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of micropollutants and how micropollutant removal be verified? What are the mechanisms for micropollutant removal with these membranes? What are the limiting factors to micropollutant removal, and which membrane