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of the PhD study programme, please see DTU's rules for the PhD education . Assessment The selection is made in two phases: a first round of interviews at DTU, and an (optional) second round, potentially
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. This Ph.D. project is focused on experimental investigation and realization of advanced quantum photonic devices, based on crystal-phase structures in nanowires. This is a recently developed technology
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competences within computational modelling, optimization and integration of thermal energy storage technologies – such as large water pits and phase change material storage. You will work with colleagues, and
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application phases. This will involve toxicological testing (e.g., cytotoxicity, mutagenicity) and evaluating microplastic release and ecotoxicity using standardized and novel methods (in collaboration with a
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on the evolution of internal metal structures obtained via Dark-Field X-ray Microscopy (a synchrotron-based imaging technique), combined with phase field modeling predictions of the structural evolution
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- MicroAM” funded by the VILLUM FONDEN. The overall aim of the project is to introduce microstructural engineering to the field of additive manufacturing (AM) of metals. This is to set the stage
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platforms can unify production environments, enabling predictive maintenance and data-driven optimization through centralized data platform architectures. Your research will focus on addressing current
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enrolment requirements and the general planning of the PhD study programme, please see DTU's rules for the PhD education . Assessment The selection is made in two phases: first at DTU and then at JRC