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energy densities exceeding LMFP and competitive with NMC. A postdoctoral research position is available on this 3D-CAT project in the area of computer modelling and materials design of lithium battery
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) to explore advanced coating techniques for Lithium Iron Phosphate (LFP) materials. This role focuses on developing cutting-edge solutions to enhance the performance of LFP batteries, with a particular emphasis
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the performance of lithium ion technologies. To support the programme, the post holder will be required to carry out research on characterisation of battery degradation, with a particular focus on the application
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Oxford. The post is funded by The Faraday Institution and is fixed term to 30 September 2026. This project addresses the need for process control on electrode fabrication lines for lithium-ion batteries
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on modelling of the transport, electrochemistry, and mechanics of next-generation lithium/air electrode materials and cell architectures. Using input data from experiments, the post holder will develop and
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on modelling of the transport, electrochemistry, and mechanics of next-generation lithium/air electrode materials and cell architectures. Using input data from experiments, the post holder will develop and
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P. Grey in the Yusuf Hamied Department of Chemistry, working on a project focused on understanding solid-state ion dynamics and phase transformations in lithium- and sodium-ion battery electrode
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P. Grey in the Yusuf Hamied Department of Chemistry, working on a project focused on understanding solid-state ion dynamics and phase transformations in lithium- and sodium-ion battery electrode
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) to explore advanced coating techniques for Lithium Iron Phosphate (LFP) materials. This role focuses on developing cutting-edge solutions to enhance the performance of LFP batteries, with a particular emphasis