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porous materials for CO2 hydrogenation reactions using photo- or thermal catalysis. The successful candidate will be involved in optimizing the synthesis process, with experience in photo-catalysis
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. Investigate the thermodynamics and interfacial structure-property relationships of materials intended for thermal energy storage to deepen understanding and optimize performance. Develop innovative approaches
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dedicated to advancements in sustainable energy through innovative research and training. Our focus lies in the design, development, and optimization of inorganic materials for various sustainable energy
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-based environments for high-performance data analysis. Knowledge of biological network inference, causal modeling, and graph-based AI approaches. Experience in multi-modal data fusion, representation
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-of-the-art infrastructure. With an innovative approach, UM6P places research and innovation at the heart of its educational project as a driving force of a business model. All UM6P programs run as start-ups
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Technology Institute (GTI) at UM6P leads cutting-edge work in: Renewable energy systems (solar, wind, smart grids) Advanced digital technologies (Industry 4.0, IoT, automation) Green process engineering
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project exploring the intersection between urban heritage and spatial justice. The postdoc will work within a multidisciplinary research team and contribute to developing new theoretical, historical, and
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to the performance of a wide range of scale-up studies of a magnetic and electromagnetic separation process to validate the selection of the appropriate design for treating, concentrating, and purifying the matrices
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/ journals. Very good programming skills (e.g., C, C++, Python), familiarity with Linux Proficiency in English and ability to work in a team Outstanding analytical and problem-solving skills Employment terms
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English and ability to work in a team. Outstanding analytical and problem-solving skills. Employment terms: The successful candidate will be employed by Mohammed VI Polytechnic University (UM6P) based