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Description Sea ice/ocean/atmosphere modeling and prediction, taking advantage of AI/ML approaches. The Scale-Aware Sea Ice Project (SASIP, 2021-2027, Lead PI: Pierre Rampal) is a research project supported by
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seismological methods that use seismic ambient noise for monitoring and early warning of natural hazards and water resources. With fine temporal resolution (daily or even hourly), these methods provide indicators
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the corrosion resistance properties of Mg alloys for bioresorbable or biostable stent applications. Magnesium stents are – by default – out of equilibrium, as they readily degrade in water-based solutions
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of the FEMTO-ST institute specialises in small-scale robotics (microrobotics). Its researchers develop millimetric and submillimetric robots for medical and industrial applications. At small scales
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collaboration with the GEPEA TEAM team. Water is omnipresent on Earth but the volume of fresh water (necessary for life) is limited. Water pollution is one of humanity's biggest problems arising from
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designed an experimental setup, where a large tank is rapidly rotating and filled with salty water of variable density (creating a density profile). This setup will be built before the start of the PhD, and
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Bossy and Dorian Bouchet (acoustic detection and imaging). The context: Bubbles in water behave as very good oscillators, with a strong acoustic resonance. Their environment influences the resonance
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will allow characterising the topography of the films at different scales, from the nanometric and micrometric to the centimetric scale. The functional properties will be evaluated by water contact angle
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areas of high latitudes, particularly in the northern hemisphere. It plays a crucial role in the climate system: exchanges of heat, water and carbon with the atmosphere can alter the carbon cycle and the
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and water electrolysers still fail to utilize Pt-group metal (PGM)-free hydrogen oxidation reaction (HOR) and hydrogen evolution reaction (HER) catalysts, respectively, at their negative electrode