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, and how signaling pathways integrate with physical constraints to ensure an optimal balance between lipid storage and energy production. By combining quantitative biophysics, advanced imaging, and
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polymer blending and colloidal lithography. Low-cost fabrication processes will be developed and optimized, and their performance will be analyzed using optical spectroscopy. Results will then be compared
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hydrogel-based biomimetic matrices (notably GelMA) to support the generation, maturation and functional optimization of multicellular adipose organoids, and integrate them into microfluidic platforms
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determining the optimal culture conditions (e.g. culture media, light intensity and temperature) and establishing the feasibility of transferring existing protocols to these species. Description of tasks
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demonstrators, to be optimized and evaluated on flexibility, sustainability and efficiency for the corresponding use-cases, including the use of new and emerging specialized AI-focussed accelerators for radio
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optimization methods for catalytic systems, such as highthrouput experimentation (HTE, collaboration with the HTE platform of the CEA Saclay) and DFT computations, and be trained in these techniques if he/she so
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-PTV experimental optimization for high density and high optical magnification, 3D-PTV software post treatment, laser and high speed cameras handling, Signal processing, Object-Oriented Programming