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on the development of materials and processes and is divided into two axes. The first axis aims to improve the most promising state of the art cell materials by optimizing their compositions, microstructures and
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visualization of microstructural evolution under mechanical stress. Here again, methodology development and optimization will be required. • Additional characterizations: Depending on project progress
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modification. • Electrochemical characterization (impedance spectroscopy, polarization curves, stability tests). • Structural and microstructural analysis (XRD, SEM, TEM, XPS, etc.). • Collaboration with
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, and imaging techniques. These analyses aim to correlate electrochemical performance with electrode microstructure and mechanical behavior, both before and during cycling. - Production of all-solid-state
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the presence of contractile cells in the gel and, ultimately, include their mechanoperception in their response. - Improve these models to include microstructural information describing the movements of collagen
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articles * Presenting results at conferences or seminars References: (1) Henningsson, A. et al. Microstructure and stress mapping in 3D at industrially relevant degrees of plastic deformation. Sci. Reports
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: Atlantis Bank, Oman ophiolite, and several others). These new cooling rate results will be complemented by a detailed microstructural study focusing mainly on grain and grain boundary shapes (aspect ratio