70 phd-in-soft-matter-physics Postdoctoral positions at Technical University of Denmark in Denmark
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will cover several of the items: Pioneer research in modelling and control within PtX and storage applications Analysis and modelling based on data-driven, physical and hybrid approaches Drive and
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PhD students and postdocs at DTU Energy and DTU Physics, which will realize your designs in the lab, provide experimental input to your modelling and ultimately use the sensors to detect the activity in
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a formal qualification, you must hold a PhD degree (or equivalent). Special consideration will be given to candidates with: A background in theoretical photonics or condensed matter physics First-rate
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high-impact journals Required qualifications: PhD degree (or equivalent) in physics, photonics, optical engineering, or a related field Solid hands-on laboratory experience in experimental optics, e.g
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expected to teach relevant courses at the bachelor’s and master’s levels with supervision from colleagues. Lastly, you will be advising students at all levels, including Master and PhD students
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computational chemistry or physics will be preferred, but candidates with a solid background in statistics, computer science, and/or mathematics are also encouraged to apply. Programming skills (e.g., Python
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PhD degree (or equivalent). Specifically, a PhD in Energy Engineering, Mechanical Engineering, Chemical Engineering, Environmental Engineering, or a related field. We seek candidates with strong
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. The postdoc’s duties include conducting research on electrosynthesis and advancing the innovative waste resource-to-microbial protein through fermentation, disseminating scientific results in articles and at
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Postdoc in development and testing of electrodes for liquid alkaline water electrolysis - DTU Energy
multi-physics modelling, autonomous materials discovery, materials processing, and structural analyses. We also focus on educating engineering students at all levels, ranging from BSc, MSc, PhD
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] that process information in temporal rather than spatial modes to reduce their footprint. The project involves a collaboration between DTU Electro (Senior Researcher Mikkel Heuck) and Harvard University (Dr