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31st May 2024 Languages English English English PhD position within second life prospect of degraded Lithium-Ion batteries Apply for this job See advertisement About the position A PhD position in
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1st May 2024 Languages English English English The Department of Energy and Process Engineering has a vacancy for a PhD Candidate in Lithium-ion Battery Sensing and Self-healing Apply for this job
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Supervisory Team: Dr Haijun Ruan, Dr Taz Amietszajew, Prof. Yue Guo Project description Lithium-ion batteries have become predominant in e-mobility and grid-level energy storage, and their lifetime
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, sustainable and smart lithium-ion batteries. Your tasks in detail: You are involved in the identification and development of novel electrolyte components (conducting salts, solvents/co-solvents and functional
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to develop and advance battery chemistries by introducing new functionalities into an existing battery technology to achieve ultra-high performant, sustainable and smart lithium-ion batteries. Your tasks in
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laser technology and the integration of sensors within lithium-ion batteries to measure internal battery states such as core temperature, gas pressure and gas composition. Much of this research is often
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Platform (FSP) Revolutionary Energy Storage Systems . This cutting-edge position focuses on developing specific advanced materials designed for use as cathodes in Oxide-Based Batteries, making strides in
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energy storage technologies for electrification of the automotive sector. The target is to enable alternative, sustainable technologies that can supersede the lithium-ion battery and the group maintains
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of the automotive sector. The target is to enable alternative, sustainable technologies that can supersede the lithium-ion battery and the group maintains active research programmes in lithium-ion batteries
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for anion-ion batteries Description of the PhD research project: Batteries currently on the market use exclusively inorganic electrode materials, often based on transition metals. Although the electrochemical