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undertake research, education, innovation, and scientific advice of the highest quality within building design and processes, building construction and safety, building energy and services, solid mechanics
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interdisciplinary collaboration. This PhD project is focused on numerical simulation of resistance spot welding with existing electro-thermo-mechanical finite element modeling as a foundation. Computational fluid
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advance this, you will break new ground in establishing an AI-enhanced modelling framework to disclose fundamental mechanisms coupling twist angles in 2D bilayer heterostructures, magnetism and catalysis
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. The successful candidate will have obtained excellent grades in his/her Bachelor and Master educations. A solid background in quantum mechanics and solid state physics is required. Moreover, knowledge
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atomic-resolution TEM. Linking 3D atomic structure, dynamics, and catalytic function of individual nanoparticles. Identifying and stabilizing uniquely active nanoparticles to uncover atomistic mechanisms
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Job Description Are you motivated by the opportunity to elucidate mechanisms in protein-protein interactions? Do want to apply your skills in molecular biology, protein design and characterization
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have a strong academic background in engineering, applied mathematics, physics, data science or a related discipline, along with solid skills in computational modelling, statistics, or machine learning
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thematic training weeks, specialist workshops, and transferable-skills courses central to the MSCA programme. Your research will be based at DTU’s Risø campus, a leading international hub for wind energy