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Job Description Kickstart your research career with our interdisciplinary PhD project on operating local energy systems to enhance the resilience of electrical grids. We invite you to join our
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where variable renewable energy sources are involved. Emerging digital and cyber-physical systems technologies are an integral component of grid interactive efficient buildings. Through advanced control
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or advanced micro/nanofabrication methods. Solid understanding and background in condensed matter physics, quantum mechanics, or nanoscale materials science. Hands-on laboratory experience with characterization
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integration of pit thermal energy storage in thermal grids Collaboration with KTH Royal Institute of Technology on building-integrated thermal energy storage Work as an assistant teacher in relevant courses
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the interfacial phenomena between water contaminants and adsorbent materials. As a member of the “Nano-Micro-Macro. Structure in Materials” research group, led by Prof. Joerg Jinschek, you will push the boundaries
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Digital Twins for Wind-Offshore and GREAT: GRid Enhancement for Ancillaries in Tomorrow’s power systems, where you will interact with researchers and experts from TotalEnergies and many other research
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will be based at DTU Nanolab, where we conduct cross-disciplinary research and apply micro- and nanotechnology to a wide range of scientific disciplines and applications. The Biomaterial Microsystems