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. Mission You will contribute to the development of monitoring tools for understanding the performance degradations of lithium-ion and sodium-ion batteries. Main activities · Develop an equivalent
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explores the next-generation ways for electrochemical lithium-ion recovery in the context of water remediation and recycling. Within the framework of a third-party funded project, we seek to fill the
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for certain critical raw materials. The European Union recently announced to ban fossil fuel cars by 2035, preparing the switch to electric cars. With the increasing demand, metal ions such as lithium and
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for next-generation Lithium-ion batteries. The successful candidate will contribute to fundamental research and industrial-scale implementation, working on the design of novel cathode compositions
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Manufacture at Chalmers University of Technology , focused on innovative research in the design and synthesis of sustainable polymers to be used as a binder for the electrode processing of the lithium ion
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storage, and organic optoelectronics intelligent and advanced polymers and materials. Project description: The Lithium-ion battery comprises multiple individual units known as "cells." Any deterioration
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-electrogravimetry, a method based on QCM-type piezoelectric sensors coupled with electrochemical impedance measurements. The project targets rechargeable batteries (lithium-ion, sodium-ion, etc.) in particular, in
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group is associated with three industrial partners for a R&I project named BatteNA+. Our goal is to replace the lithium-ion battery of an electric bus with a sodium-ion batteries developed in France. To
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to develop a new generation of Sodium Metal Chloride batteries, a sustainable technology that relies on abundant, safe and non flammable raw materials, offering a competitive alternative to lithium ion systems
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) research grant, funded by the Faraday Institution (FI). The project brings together expertise in the manufacturing of lithium ion electrodes from excellent Universities across the UK (Oxford, Birmingham