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to be achieved and the constraints of the problem. Problem: Traditional heuristic approaches of experts do not allow the exploration of non-intuitive process configurations, which are often more efficient
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(Decarbonising Energy-intenSIve industries with REnewable synthetic fuels) is a Marie Skłodowska-Curie (MSCA) Doctoral Network, designed to train the next generation of specialists in e-fuel utilization. DESIRE
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utilization. DESIRE will equip 15 PhD researchers with cutting-edge expertise in combustion science, chemical kinetics, fluid dynamics, and digital modeling, preparing them to revolutionize industrial energy
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approaches provide low-resolution mapping and do not distinguish between spliced and unspliced RNAs. To overcome these limitations, the project will use nanopore dRNA-seq, which allows mapping of modifications
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Centre de Mise en Forme des Matériaux (CEMEF) | Sophia Antipolis, Provence Alpes Cote d Azur | France | 16 days ago
applications, including minimally invasive medical procedures and targeted delivery [1]. Precise magnetic actuation requires the use of bottom-up fabrication techniques in which magnetic interactions are well
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provided by the EUROfusion Horizon Europe consortium, which offers access to a large collaborative network and European EURATOM funding. To model the behavior of hydrogen in materials, we use electronic
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scales, have recently emerged as serious candidates for triggering SB formation. The overall objective of the thesis is to answer the following questions: Do solar jet-like events induce switchbacks (SBs
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network contracts upon local stimuli to orient fluid transport where it is needed. This enables autonomous functionalities without the need for a complex nervous system. These organisms use fluid transfer
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) and involves close collaboration with EPFL and IMS Bordeaux. Our research focuses on developing passive implantable biosensors that use backscattering to wirelessly transmit sensing data. The researcher
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learning offers a promising avenue to accelerate the realistic modeling of atmospheric radiative signals while maintaining physical consistency. In this project, we propose to investigate the synergistic use