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system housing the two arms of the PET-SCAN system - Develop a simulation tool to optimize the prototype structure - Develop software tools for data acquisition and processing This work is being carried
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modularity and sequence addressability. - Assembly and optimization of the folding DNA origami nanostructures - Functionalization of DNA origami with proteins, peptides, fluorophores, nanoparticles, or drug
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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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several members will meet with candidates and ensure optimal conditions for a successful interview. Application deadline: 14/02/2026 Indicative interview period: 24/02/2026 Desired starting date: 01/04/2026
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testing of concrete structures Good Knowledge of data science, e.g. optimization, machine learning, and structural sensing technologies Openness to interdisciplinary research and commitment to teamwork
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Inria, the French national research institute for the digital sciences | Villeneuve la Garenne, le de France | France | about 1 month ago
has worked for over a decade on advancing the theoretical foundations of reinforcement learning, using a combination of tools from statistics, optimization and control, in order to build more efficient
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collaboration with the University of Zurich. Mission The researcher will integrate, optimize, and stabilize the RNb-NeuS neural 3D reconstruction method within the AliceVision software architecture, enabling
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disease ⎯ Establish and optimize 3D culture models to explore endothelial–epithelial cross-talk ⎯ Perform imaging and spatial transcriptomics; contribute to data analysis & interpretation ⎯ Write and
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for the tasks of WP3 of the project. Activities Optimize fermentation conditions using Y. lipolytica with industrial by-products and compare production yields to synthetic media; Optimize dye extraction
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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