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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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alternative to lithium-ion battery. The PhD research will address challenges in proton battery research and improve energy density, fast charging and discharging capability, stability and low
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investigates the geochemistry of critical minerals (e.g., lithium, rubidium, rare-earth elements) through the life cycle of mining, processing and utilization. We seek to develop geochemical and isotope tracers
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, electronicis and communication. The main aim of this project is to detect lithium in sweat. However, other ions will be considered at a later stage of the project. You will furthermore integrate these yarns in a
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-electrolyte interphase science (SEI/CEI), and advanced high‑throughput electrochemical characterization, with strong focus on Scanning Droplet Cell (SDC) methodologies. The doctoral project will focus on Li‑ion
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to the field. Particular emphasis for this position is placed on modelling, estimation and control of battery systems, including not only current lithium-ion chemistries but also next-generation technologies, as
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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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Electrodes (Nextrode). This project brings together lithium-ion electrode manufacturing expertise from Universities across the UK (Oxford, Birmingham, Warwick, Southampton and UCL). As Research Associate in
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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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selective separation and purification of valuable metals and reducing waste. Nanofiltration (NF) effectively removes divalent ions, facilitating lithium recovery from leachates. Electrodialysis (ED) aids in