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Description of the offer : When a magnon propagates through a magnetic medium, no electrical charge transport is involved and hence no electrical losses occur. We aim to explore engineered
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degree or equivalent in Materials Science or Electrical Engineering or Physics, a very good knowledge (written & spoken) of the English language. Strong motivation and ability to collaborate in
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of refrigerant gases, the high-power demand of active refrigeration devices in last-mile deliveries where the electricity supply is unreliable, and the significant carbon footprint of high global warming potential
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resistive devices to conduct heat capacity, electrocaloric, and pyroelectric measurements on ultrathin FE/AFE materials during rapid cycling under fast temperature or electric field switching, or both. Main
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surface/magnetic/electrical (AFM) characterization, as well as access to High resolution, aberration corrected Transmission Electron Microscopes. This is complemented with collaborations with high-profile
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areas and academic rank higher than 8 (over 10). . Master’s in chemistry, nanoscience and nanotechnology, or related areas already completed or to be completed during the current semester. . Candidates
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this context, nanoscale magnetism presents unique opportunities to revolutionize existing electronics. By harnessing the interplay between electron’s spin, orbital and charge properties, we can manipulate the
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scanning probe microscopy, as well as macroscopic electrical characterization techniques, to unveil the coupling of order parameters with strain and strain gradients in the functional membranes at different
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: The researcher's main role will be the development of energy autonomous neural interfaces. The researcher will be in charge of the microfabrication of energy harvesting devices based on triboelectricity (TENGs) and
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autonomous neural interfaces. The researcher will be in charge of the microfabrication of energy harvesting devices based on triboelectricity (TENGs) and their characterization under different working