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Field
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, inspection histories, operational performance data, hyperspectral imagery, train-borne video analytics and satellite soil-moisture products to build predictive models of vegetation-driven and water-driven
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today and in the future. For more information: http://www.slu.se/en/departments/forest-ecology-management/ Read more about our benefits and what it is like to work at SLU at https://www.slu.se/en/about
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(SustainCARE, https://doi.org/10.3030/101220359 ), led by Dr. Yun Liu. SustainCARE brings together heritage science, building physics, advanced modelling, and climate-conscious preservation, offering a unique
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education to enable regions to expand quickly and sustainably. In fact, the future is made here. Description of work You will be working in the laboratory of Marta Bally (https://ballylab.com/ ), in close
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on water control in buildings, their effects and how to fight against the damage: salt crystallisation, indoor moisture development, wall humidity, consolidation products, microbiological development
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experimentally driven (approximately 70/30 wet lab to modeling) and will include: Design and fabrication of 3D-printed brain tissue models with tunable transport properties Development of experimental methods
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mainly in wet-lab, discovering binders by phage display selection and characterize them by ELISA, BLI and enzymatic activity assays. You will also perform in silico structural analysis and design of
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Mulhouse, France (http://www.is2m.uha.fr/ ) under the direction of Dr Valeriy Luchnikov, a member of the “Wetting and Self Assembly” research group, and Prof Thierry Vandamme, Faculty of Pharmacy of
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. Documented experience with analytical methods and wet-lab experimentation. University-level teaching and supervision experience. Track record of scientific publications in high-quality journals. Strong
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interactome analysis in contexts of health and disease. Projects have a strong dry-lab focus but can incorporate molecular or translational wet lab components if sought. The 3-year PhD program will be co