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collaboration with leading international research partners within the EU project Your Profile: Masters degree or comparable degree in mechanical engineering, electrical engineering, environmental engineering
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membranes. You will develop theoretical models and employ computational methods to describe the coupling between ionic nanofluidics, electric double-layer charging, and interfacial reactivity in electrolyte
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(Masters) in Electrical Engineering, Mechanical Engineering, Electronic Engineering, Physics or a comparable field Strong mathematical background Excellent knowledge and experience in programming (e.g
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well as in the form of publications in relevant journals Your Profile: Excellent Masters degree in electrical engineering or comparable Programming skills in Python and C++ Fluent written and spoken English
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for memristive circuit measurements and experimental data analysis interact with cross-disciplinary experts (e.g. neuroscientists and device physicists) Your Profile: Master’s degree in electrical/electronic
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automation experts to develop and use a reliable, fast, electrochemical testing process Your Profile: Excellent master degree in process, electrical, chemical, or mechanical engineering or a related discipline
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, is seen as the energy source of the future. To produce it, reactions must be catalysed, some of which take place under extreme conditions. Current electrocatalysts usually cannot withstand
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optimization techniques for direct in-situ use in quantum dot experiments Model and characterize major sources of environmental and coherent error stemming from material properties and spin-charge dynamics Your
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on an international stage Your Profile: Master in physics or electrical engineering Knowledge of solid state physics and/or quantum information Experience with programming, preferable with Python Fluent speaking and