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. There is growing interest in microsystems that can replicate the local physiology of tumors, providing a platform to identify and optimize therapeutic candidates. Our group specializes in developing
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responsible for designing, optimizing, and fabricating these systems using bioprinting and cleanroom-based techniques. You will also measure molecular signatures and isolate cell subsets of particular interest
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and operation of mass spectrometers (MS), as well as multi-omics data integration and analysis. Detailed description of the work duties, such as: Research and optimization of acoustic cell sorting
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develop novel electrodes and electrolytes for high-performance aqueous iron- and/or zinc-ion batteries. The work involves studying electrochemical energy storage and degradation mechanisms of electrode
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on this project. About us At the Department of Life Sciences , we bring together biology and technology to develop sustainable solutions for the future — from food and medicine to energy — driven by curiosity
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research and education. We offer an international environment, with scientific areas ranging from fundamental chemistry, health and medical technology, materials science, renewable energy, to chemical
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experimentation to address one of the most critical challenges in modern energy systems, maintaining stability in an increasingly converter-dominated power network. The project will be carried out in close
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develop research within the fields of material science, tribo-chemistry and tribology. Subject description Machine Elements include analysis and optimization of components and systems based on performance
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, you will work with advanced 3D in vitro models of fibrosis and metabolic disease, using multiple primary and immortalized human cell lines. Your research will focus on identifying molecular mechanisms