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EU MSCA doctoral (PhD) position in Materials Engineering with focus on computational optimization of
, scanning speed, layer thickness, scan strategy and subsequent heat-treatment) has a significant effect on the microstructure (grain size, alloying elements distribution, crystallographic texture), mechanical
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EU MSCA doctoral (PhD) position in Materials Engineering with focus on mechanistic study of biodegra
at metal-electrolyte interface; gain understanding of the factors influencing the initiation and propagation of localized corrosion and associated mechanically assisted corrosion. Research stays are planned
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key component of the project will also explore general metabolite-mediated signaling in the aortic endothelium, aiming to identify novel molecular pathways involved in vascular inflammation and
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Andrology (CeRA). Here, we investigate the cellular and molecular mechanisms underlying vascular and lymphatic control of gonad development, using advanced imaging, zebrafish models, and organoid systems. Our
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to further elements such as lab rotation and symposia Association to a local graduate school is possible Salary according to tariff agreement, extra annual payment, and company pension plan (VBL) 30 days
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board! RESPONSIBILITIES: Opportunity to contribute to ongoing research on mechanical signaling in healthy and diseased heart muscle cells Use of state-of-the-art molecular, biophysical, and imaging
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engineered 3D hydrogels, we will experimentally probe the mechanical forces and physical constraints that drive coordinated cell behavior. In parallel, we will develop and apply computational models and
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Europe and the USA. Our research focuses on investigating host-pathogen interactions with a strong emphasis on cell biological mechanisms. Viruses as simple, obligatory, intracellular parasites depend
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highlight the potential of microbiome intervention in immuno-oncology. In our team, we actively integrate translational data, functional assays and preclinical models, to understand and overcome mechanisms
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waste. REC² establishes the scientific foundation for the electronics of the future, including new material platforms, component concepts, and integrated systems that enable the realization of responsible