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imaging and spectroscopy) to evaluate performance of electrodes and to map electrolyte chemical composition in micrometer resolution, allowing validation of the model predictions. Validation and evaluation
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into scaffold–cell interactions and contribute to the development of clinically relevant bone substitutes. Project goals Goal 1: Develop and optimize biomaterial inks replicating the composition of natural bone
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ecosystem services are managed sustainably. In Uppsala, the focus is on wood science and technology, with research and education on wood materials from nano to macro level, wood composites, and wood adhesives
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and evaluation of composite tanks and steel piping under cyclic thermal and hydrogen exposure. Predictive modeling of material degradation, fatigue, and embrittlement. Assessment of thermal management
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at cell membranes; Apply machine-learning models trained on simulation data to study how lipid composition and genetic variation influence the conformational and phase properties of membrane-associated
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, postdocs, senior researchers, a senior lecturer, and a professor, providing a stimulating and supportive setting for doctoral studies. Read more about our benefits and what it is like to work at SLU at https
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. Development of advanced imaging and characterization technologies (X-ray micro tomography, EPR imaging and spectroscopy) to evaluate performance of electrodes and to map electrolyte chemical composition in
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Technology Laboratory (QTL) division of the Microtechnology and Nanoscience (MC2) department, working in a large team of PhDs, postdocs and researchers. About the research We are seeking PhD students to work