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field of elemental micro-analysis and chemical imaging, Draw up specifications for carrying out studies and projects involving EPMA analyses, including, where appropriate, the implementation of new
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processes, with a focus on optimizing performance and reducing environmental impacts. Collaboration with experimentalists, utilizing simulations to support reactor design, validation, and prototype
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prototype development. Techno-economic analysis and life-cycle assessment, evaluating the sustainability and scalability of AI-driven materials for battery applications. Engagement with industrial partners
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current testing for defect detection and structural integrity assessment Development of advanced NDT methodologies using digital imaging, artificial intelligence, and machine learning for real-time
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using digital imaging, artificial intelligence, and machine learning for real-time monitoring and predictive maintenance Collaborate with interdisciplinary teams for the design and development of high
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(SECM) Corrosion monitoring and prediction using digital imaging, machine learning, and predictive modeling Collaborate with interdisciplinary teams for the design and development of high-performance
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Spectroscopy (EIS), Potentiodynamic Polarization, and Scanning Electrochemical Microscopy (SECM) Corrosion monitoring and prediction using digital imaging, machine learning, and predictive modeling Collaborate
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monitoring and prediction using digital imaging, machine learning, and predictive modeling Collaborate with interdisciplinary teams for the design and development of high-performance materials with enhanced
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), Potentiodynamic Polarization, and Scanning Electrochemical Microscopy (SECM) Corrosion monitoring and prediction using digital imaging, machine learning, and predictive modeling Collaborate with interdisciplinary