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priority in the regional aircraft sector. A fundamental enabler for this transformation is the availability of airworthy, high-performance Battery Energy Storage Systems (BESS), capable of meeting the
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-performance Battery Energy Storage Systems (BESS), capable of meeting the stringent energy, safety, and integration requirements of aviation. The main objective of the postdoctoral position is to develop a high
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rechargeable batteries. In this context, one of the challenges involves optimizing the electrolyte, which determines the stability of the metallic anode, the electrochemical window, and interfacial processes
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to join a cross-disciplinary project at Chalmers University of Technology , exploring how magnetic fields can be used to improve structural batteries. In this role, you will contribute
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. Sound background in Electrochemistry/Chemical & Mineral Processes/Chemistry Experience in the recovery of strategic metals and the development of fresh Lithium-ion Batteries & Supercapacitors Experience
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of strategic metals and the development of fresh Lithium-ion Batteries & Supercapacitors Experience in Statistial models for optimizing the chemical process Skills in elemental & structural analysis using
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- Drafting of publications This project is part of the PEPR “Li Metal Solid-State Batteries” program, known as LIMASSE, coordinated by the ANR under the France 2030 initiative. This highly ambitious project
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the Systems Analysis Unit, looking for talented and motivated candidates to work in life cycle assessment of batteries-based energy systems and other energy systems. The new researcher will join the research
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near completion) in materials or chemistry and experience in battery research. You will have expertise in a range of synthesis techniques and advanced materials characterisation tools such as X-ray
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for next-generation lithium- and sodium- ion batteries. This role provides a unique opportunity to work at the forefront of battery innovation, focusing on the design and implementation of novel synthesis