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Postdoc in development and testing of electrodes for liquid alkaline water electrolysis - DTU Energy
at their main site in Jutland. You have a solid background in electrochemistry and materials science, and you will make use of your experiences with materials synthesis and characterization as well as with
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in glaciology, Geodesy, Earth sciences, remote sensing, or a related field. Strong skills in data analysis, programming, and handling large geospatial datasets are essential. Experience with satellite
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are looking for a postdoc to help us design such sensors using numerical modeling. Using finite element modelling techniques, we will study the interplay between material properties and the design of the sensor
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work and deliver! Further requirements and qualifications We require demonstrated expertise in experimental quantum optics and a Ph.D. in physics, quantum information science, or a related field
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interest in information processing in humans and computers, and a particular focus on the signals they exchange, and the opportunities these signals offer for modelling and engineering of cognitive systems
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degree (or equivalent) in chemical engineering, materials science engineering, coatings science or a closely related discipline in an area associated with coatings technology. We offer DTU is a leading
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. The project is part of an international collaboration with leading experts at KTH Royal Institute of Technology in Sweden, offering the opportunity for extended research stays at both DTU and KTH. We
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-disciplinary involving algorithmics, stochastic optimization, multi-criteria decision making, and data science. As part of the project, you will implement and test algorithms and further develop your skills in
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pioneering quantum-enhanced Raman and Rayleigh scattering microscopy within a cutting-edge research center at the intersection of quantum technology and biomedicine. You will become part of a vibrant
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of the required technology and culture procedures: Stereolithographic 3D printing of complex microfluidic networks in hydrogel materials. Optimizing the hydrogel composition to maximize diffusional transport