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modelling using existing models and using AI based tools. The focus of the work will be to cater to the needs to high voltage/power in power electronic systems, while avoiding humidity and gas exposure
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working collaboratively at the interface of physics and Earth science. This project offers a rare opportunity to engage in groundbreaking research with high impact across both academic and industrial
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. During the project, you are expected to supervise Bachelor and Master students, work in tandem with colleagues and coordinate with collaboration partners, therefore we expect a high degree of project
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for the efficient formation of high-value compounds. Advanced NMR methods and computational data analysis will be compounded to devise novel reactions towards pharmaceutical precursors, polymer building blocks and
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research environment. Project background Future European power systems are expected to be driven by a very high share of renewable power plants and will be extremely complex, uncertain environments with
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, ultra-high speed optical transmission systems, and bio-photonics. Technology for people DTU develops technology for people. With our international elite research and study programmes, we are helping
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student in this project, you will: Collaborate with leading experts across Denmark and Europe in a high-impact, interdisciplinary setting Gain hands-on experience with protein characterization, advanced
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in engineering. Candidates with the following knowledge and skills will be given priority consideration: Thermal energy storage or techno-economic analysis Heat transfer and heating/cooling systems