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. The project aims to produce novel types of mixed-metal nanoparticles, particularly magnetic materials, and to use advanced characterization techniques to gain a deeper understanding of how particle properties
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investigates inflammation in health and disease using cutting-edge exposure systems and advanced 2D and 3D cell models. In parallel, NanoSafety2 focuses on the toxicity assessment of particle emissions from
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The laboratory assistant will join the NanoSafety2 project at Örebro University, which focuses on the toxicity assessment of particle emissions from additive manufacturing (also known as industrial 3D printing
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includes data analysis, filtering of large amounts of data, etc. It is also important to have a solid understanding of mining and mining systems in order to understand the end-user requirements and needs
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advancing optical tweezers techniques and developing novel nanoprobe-based sensing methods at the single-particle level. About us The project centers on the development of single-particle approaches
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analysed using advanced optical techniques such as: High-speed imaging Laser-induced fluorescence Particle image velocimetry Experimental and numerical results will be evaluated and compared to refine both
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deviations for stochastic processes, and interacting particle systems. The group also has both national and international collaborations. Duties The postdoctoral position offers an opportunity to further
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Location until further notice: Växjö Hours and term: Temporary employment 100% for 2 years Starting date: As soon as possible. Job description The adhesive bonding of solid wood, wood particles and wood
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spectroscopies, as well as molecular biology for introducing site specific alterations. Atomic level structural insight will be obtained via single particle analysis cryo-EM and snapshot serial crystallography
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such as lipid nanoparticles (LNPs), extracellular vesicles and cell membrane mimics. We use a variety of single particle techniques as well as small angle scattering experiments to identify lipid self