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particle tRansport procEsses”, financed by the European Research Council. The SHORE project is briefly described below: Beaches are eroding at many locations around the world, and, with the pending climate
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of catalytic materials for both hydrogen and oxygen evolution Application of catalyst particles on electrode substrates with different morphologies Coating of electrode materials with protective and catalytic
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microscopy, optical interferometry, vacuum technology, finite element method simulations will be involved. Applicants should hold a PhD in Physics, Nano-science, Engineering or similar, experience with optics
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microscopy, optical interferometry, vacuum technology, finite element method simulations will be involved. Applicants should hold a PhD in Physics, Nano-science, Engineering or similar, experience with optics
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mathematics, nanoscience and the hospital. In addition to NMR-based techniques and mass spectroscopy, you will use a suite of colloidal and nanoscience techniques to characterize the particles. Who we
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determine ideal nano-composites for permanent magnets. In collaboration with Aarhus University, you will get to validate your modelling results against experiments. You will also get to supervise a PhD
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may be obtained from Associate Professor Søren Raza, sraz@dtu.dk . You can read more about our research on the Applied Nano-Optics webpage and about DTU Physics at https://physics.dtu.dk/ . If you are
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here . Further information Further information may be obtained from Associate Professor Søren Raza, sraz@dtu.dk . You can read more about our research on the Applied Nano-Optics webpage and about DTU