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autonomous, energy-efficient, high-density BCIs. The PhD student will work on designing and testing all parts of this system, focusing on making it small, power-efficient, and suitable for medical or wearable
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to be cost competitive with other technologies, long lifetime of >5 years operation under high current density is desired. Operation conditions such as temperature, gas composition, current density and
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experiments. Interest in connecting theory to experimental or real-world applications. Ability to work independently and communicate well in an international team. Research environment The PhD project will be
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cement based on literature, theory, and experiments. Optimization of composition with other waste materials. Thermodynamic modelling and experiments with advanced technologies are used. Development of a
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with a total of 20 PhD stipends. The AI:Cybernetics Lab is part of the AI:X initiative with four PhD stipends and is a collaboration between the Department of Health Science and Technology, The Facul-ty
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fixed for 2 years. Your work tasks and competencies The ideal candidate holds a PhD in robotics, mechatronics, control engineering, or a related field. They will have documented experience in autonomous
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chance to connect and work with leading researchers in the Copenhagen region and abroad. As part of the project, you will also have the opportunity to spend some months under the supervision of Assistant
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the national center for nano- and micro-fabrication. We work in tight collaboration with a team of quantum nanophotonics theorists and a team of nanofabrication experts. We have established an effective in-house
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. The PhD project is part of MADE REACT (Resilient manufacturing systems through AI-powered and digitally Connected Technologies), which is a national collaboration involving 23 leading companies, five Danish