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The transition towards renewable energy sources and the electrification of transport underscore the increasing reliance on battery technologies. In the “UK Battery Strategy ” published by
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Supervisors: Dr. Ferran Brosa Planella, Dr. Radu Cimpeanu, Prof. Louis Piper Summary: Manufacturing not only has a significant impact on battery performance and lifetime, but also on cost and
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ligand discovery in silico for Li, Mn, Co and Ni recovery from spent lithium batteries. This will take advantage of experience in Nguyen group on using AI and Machine Learning for ligand discovery in
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rate (£19,237 for 2024/25). The start date is 1st October 2024. This project will focus on the development of membrane-less redox flow battery systems for grid-scale energy storage. We will use novel
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the difference between Home and International fees. Overview Are you interested to research how to make next generation rechargeable batteries? Rechargeable batteries are the key energy storage devices
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the University of Nottingham alongside our ‘next-generation’ batteries research team. We want to understand the chemistry that underpins advanced energy systems and use this knowledge can be used to unlock new
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-generation’ batteries research team. We want to understand the chemistry that underpins advanced energy systems and use this knowledge can be used to unlock new energy storage technologies for electrification
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PhD in Mechanical and Systems Engineering: Manufacturing of the Next Generation All-Solid-State Lithium-Sulfur Batteries Award Summary 100% home fees covered and a minimum tax-free annual living
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PhD Studentship–Computational Design of Solid-State Battery Materials Award Summary 100% home tuition fees covered and a minimum tax-free annual living allowance of £19,237 (2024/25 UKRI rate
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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