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objectives. About 20% of your time will be dedicated to this training component, which includes following courses and/or workshops (some of which are mandatory), as well as training on the job in assisting in
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critical metal. The PhD student will explore the geochemical behaviour of lithium in the Earth's crust as a function of variables such as composition, temperature, pressure and oxygen fugacity. The candidate
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training programme will be set up reflecting your training needs and career objectives. About 20% of your time will be dedicated to this training component, which includes following courses and/or workshops
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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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catalysts ‘move’, their activity can increase up to 30×. A new piezoelectric method enables high-frequency strain, but the mechanism remains unknown. As a PhD, you’ll uncover how dynamic stress drives CO
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sensors for measuring macromolecular crowding in C. elegans; use advanced fluorescence microscopy techniques, complemented by molecular biology and biochemical methods; be an active member of an open and
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influences policy; Innovative methods: Work with cutting-edge approaches, translating knowledge into practice; Strong support network: Benefit from experienced supervisors, peer mentoring, and a dedicated
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by molecular biology and biochemical methods; be an active member of an open and interdisciplinary research team; learn to independently collect, analyse and interpret your data, share your data
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the ECCO project, you you expect the following: Real-world impact: Your research directly empowers citizen collectives and influences policy; Innovative methods: Work with cutting-edge approaches
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targeting abilities, making them promising drug delivery vehicles. However, as seen with most nanoparticle platforms, endosomal escape is a limiting factor for their therapeutic impact: the key step