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SD-26006 PHD STUDENT IN METAL DECORATED METAL OXIDE NANOSTRUCTURES FOR ENHANCED PLASMONIC LIGHT H...
metal oxide nanostructures — materials that combine metal nanoparticles (Au) with semiconducting oxides (ZnO, CuO) to boost optical absorption and opto-electronic performance. The project is part of a
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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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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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., behavior change, social action). The PhD candidate will primarily conduct quantitative research, including the design and analysis of survey and experimental studies. The PhD will be based in
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Computational Analysis of Collective Cell Behavior – ideally with you on board! How do cells coordinate their behavior to migrate, self-organize, and remodel tissues? To answer this, we combine advanced
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, transcriptomic, and proteomic levels to elucidate the molecular makeup and phenotypes of these tumors. The advertised project focuses on a comprehensive analysis of the mechanisms by which bacterial species and
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EU MSCA doctoral (PhD) position in Materials Engineering with focus on mechanistic study of high cor
on unravelling the origin of the elevated corrosion rates of AM-built Mg- and Zn-alloys. The work will revolve around micro- and nanoscopic visualization of initial micro-galvanic activity upon metal contact with
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and physical principles of negative ion mode LC-MS/MS-based peptide analysis. The project combines method development and mechanistic exploration with downstream applications in proteome
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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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Languages (ACP ), the section on Topology, Algebra, Analysis and Geometry (TAAG ) and the Centre for Quantum Mathematics (QM ). The proposed starting time is Winter 2026, with some room for flexibility