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Job Description We are seeking a candidate to help develop the electrochemical sensor system that we work with in our group. The work involves all steps of sensor development (concept development, fabrication and testing). You will be involved in a highly interdisciplinary project in a...
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Job Description We are looking for a key team member for our work on low loss active photonic integrated circuits. We will explore some new ideas to functionalize low loss SiNx by microtransfer printing and make more efficient, lower noise and higher power PICs. You will get to work in our large...
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/multiqubit . The project is supported by an ERC Consolidator grant (M€ 2.6) from the European Research Council (EU). Our research aims at exploring quantum information science at the nanoscale and developing
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Job Description DTU Department of Wind and Energy Systems inaugurated Risø HPP in October 2024. Risø HPP is a Hybrid Power Plant facility based on two 225kW wind turbines, two 185kW PV systems and a 1155kWh / 250kW battery system. The facility is located on DTU’s Risø campus. We are right now...
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-based simulation for process optimization. Developing advanced numerical models for the coupled heat and mass transfer in the float zone process including 3D computational fluid dynamics (CFD) models
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in electron microscopy, microfabricated nanoreactors, nanoparticle synthesis and computational modelling. The radical new, interdisciplinary approach aims at relating the atomic-scale structure
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hardware accelerators, or quantum information science. Responsibilities and Qualifications Your primary responsibilities will be centered around the fabrication and characterization of TFLN/TFLT PICs
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communication skills and be extensively trained in immunology, stem cell biology, cellular engineering, cell culture systems, and computational data analysis. We offer DTU is a leading technical university
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electrochemical processes. Expertise in modeling and simulation of electrochemical systems, preferably PEM fuel cells or similar energy conversion systems. Proficiency in relevant computational tools, such as
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the benefits (society, economic and environmental) of developed bio-based technologies. We aim to develop computational tools that provides insights to guide the research community in DTU and beyond to assess