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. Degradation Studies: Investigate structural, morphological, and interfacial degradation mechanisms to improve material stability and cycling performance. Scale-Up and Process Optimization: Work on improving
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: Investigate structural, morphological, and interfacial degradation mechanisms to improve material stability and cycling performance. Scale-Up and Process Optimization: Work on improving synthesis methods
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, and optimization of inorganic materials for various sustainable energy processes. We work diligently to contribute to the competitiveness of Moroccan and African companies by conducting research across
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fertility, optimize nutrient availability, and contribute to more sustainable agricultural practices. Job Responsibilities Study the biology, ecology, and physiology of microalgae and cyanobacteria
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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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on creating and optimizing state-of-charge (SOC) and state-of-health (SOH) prediction models to ensure the safety, efficiency, and longevity of lithium iron phosphate (LFP) batteries. Key Responsibilities
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, and materials characterization to join a cutting-edge research team. The project focuses on developing sustainable and optimized processes for vanadium extraction and purification, with the goal
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associations, and the surface properties of the minerals. In general, a mineral cannot be floated even if the processing conditions are optimized if it is locked (encapsulated). To improve flotation recovery
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Semantic communication and intelligent information processing Secure wireless, optical, and space communication protocols Design, analyze, and optimize new algorithms and system architectures for secure
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techniques (e.g., DNA/RNA extraction, PCR, qPCR, metagenomics, transcriptomics) to study microbial communities in soil environments. Develop and optimize laboratory protocols for characterization, and