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. size-selected cluster sources. Catalytic testing using ultra-sensitive chip-interfaced electrochemistry–mass spectrometry (EC–MS) and ultra-high-vacuum-compatible thermal catalytic setups. 3D atomic
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, we are looking for academic excellence and/or demonstrated scientific achievements. We also expect you to have a strong ability to conceive new ideas and construct high-performance experimental setups
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decision-making. A main challenge is finding ways to link AI-driven creativity with clear environmental performance feedback early in the design process. This phase is characterized by high uncertainty in
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Turbulence is the primary obstacle to achieving stable, high-performance plasma in fusion reactors. It disrupts energy confinement, preventing the realization of a clean, limitless energy source. Recent
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, Aalborg University is known worldwide for its high academic quality and societal impact. The Department of Electronic Systems employs more than 200 people, of which about 90 are PhD students, and about 40
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-selected cluster sources. Catalytic testing using ultra-sensitive chip-interfaced electrochemistry–mass spectrometry (EC–MS) and ultra-high-vacuum-compatible thermal catalytic setups. 3D atomic-resolution
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Faculty position in Molecular Health (Tenure-Track Assistant Professor / Associate Professor) at ...
of: Immunology Microbiology and infectious diseases Metabolism Ageing Disease mechanisms The Candidate A tenure-track Assistant Professor is expected to develop an independent and competitive research program
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, for our own developments, also for external Ceph developers to debug problems and test patches on a physical test installation. About the two positions You will be part of a homogenous and well-functioning
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for ensuring agentic AI solutions fitting the complexity of the problem, as well as matching the computational power available, ranging from high performance computers to ordinary laptops. You understand
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they lead to electrochemical failures under low and high voltage bias. The project will also include the development of secondary electrochemical models as digital twins. This PhD project is part of CreCon