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Field
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. size-selected cluster sources. Catalytic testing using ultra-sensitive chip-interfaced electrochemistry–mass spectrometry (EC–MS) and ultra-high-vacuum-compatible thermal catalytic setups. 3D atomic
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significantly. Unfortunately, it is challenging to measure groundwater fluxes in the field. A new iFlux sensor prototype to measure real-time groundwater fluxes in the field is a promising technique, but is a
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-selected cluster sources. Catalytic testing using ultra-sensitive chip-interfaced electrochemistry–mass spectrometry (EC–MS) and ultra-high-vacuum-compatible thermal catalytic setups. 3D atomic-resolution
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: Development and demonstration of 3D-in vitro environment for of electric field interference neuronal simulation with self-organized networked electrode array Project tasks and objectives: The BRAINET is an EU
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cell lines (ii) package promising drug candidates into targeted drug delivery systems and study their efficacy (iii) utilise multicellular 3D cell models to investigate the tissue specificity
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process, modification of the microenvironment components, and integration with state-of-the-art research technologies such as high- and super-resolution microscopy, quantitative image analysis, spatial
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interest in Human Genetics, Reproductive Medicine and Cilia Biology Previous experience with immunofluorescence imaging, specialized 3D cell culture technologies, genetic analyses, functional assessment
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microscopy. You will: Track cancer invasion in real-time using state-of-the-art in vivo two-photon microscopy in mice, and live-cell confocal microscopy using ex vivo 3D models. Genetically manipulate cancer
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in situ across length scales and relate their structure/organization to fertility phenotypes. The work includes include (i) investigating the 3D structure and composition of unknown macromolecular
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fabrication techniques suitable for large-scale production. The program trains researchers through a multidisciplinary approach with applications in communications, thermal management, sensing, and imaging