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-invasive battery lifetime prediction through acoustic emission detection. This involves modeling the battery as a 3D acoustic landscape and tracking its changes over time. The expected outcomes
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The position is for a two-year period starting from 1 February 2026 or as soon as possible therefter. Job description The position is part of an interdisciplinary project “High throughput Virtual 3D
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The position is for a two-year period starting from 1 February 2026 or as soon as possible therefter. Job description The position is part of an interdisciplinary project “High throughput Virtual 3D
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acquired in just 2 seconds. The results of several clinical studies will be used as a proof-of-concept, and a prototype scanner with a touch-sensitive graphical interface will be developed and tested in a
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strong background in materials crystallography with measurement and analysis of diffuse scattering, including use of the 3D-DPDF method. Furthermore, the candidate preferably has experience in writing
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at improving our understanding of 3D surface displacements of the solid earth due to past and present-day ice variability. Your tasks will include: Creation of altimetry and/or Digital Elevation Models Model
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Center (CoaST). These facilities are now equipped with modern graphical user interfaces, unified communication protocols, and structured data pipelines that collect and store experimental data in dedicated
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spectrometry (e.g. Orbitrap Astral, Eclipse, and Exploris from Thermo Fisher Scientific, and timsTOF Ultra 2 and timsTOF HT from Bruker) and for bioimaging (e.g. Abberior facility line STED and MINFLUX, Nikon 3D
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at multiple fidelities: from simplified beams to full 3D FE models. You will collaborate closely with both academic and industrial partners in Denmark and abroad, ensuring that your research has impact in
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of electrocatalysts with 3D active site structures for a variety of reactions, such as oxygen reduction, oxygen evolution, and CO2 reduction. We welcome candidates with a passion for unraveling the fundamental