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primary cancer tissues, organoids and clinical samples. A key aim is to connect molecular mechanisms to tumour biology and identify novel actionable targets for drug development. You will work extensively
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animal models with advanced human-based systems for research in osteoarthritis and rheumatoid arthritis. You will focus on creating innovative in vitro NAMs that mimic or capture mechanisms of arthritis
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tools and develop new ones to study protein interactions and signalling pathways in primary cancer tissues, organoids and clinical samples. A key aim is to connect molecular mechanisms to tumour biology
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method enables high-frequency strain, but the mechanism remains unknown. As a PhD, you’ll uncover how dynamic stress drives CO₂ conversion into valuable chemicals with minimal energy and waste. Ready to
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facilities, unconventional nanofabrication equipment and experimental setups to measure ion transport will be designed supported by excellent mechanical and electronic workshops. We foster an international and
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nanofabrication equipment and experimental setups to measure ion transport will be designed supported by outstanding mechanical and electronic workshops. We foster an international and collaborative atmosphere and
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postdoctoral researchers, supervised by Dr. Tim van Erven. This is what you will do AI and machine learning models keep getting better, but how they make their decisions often remains unclear, because