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Applications are sought for a PhD studentship joint between the University of Birmingham and Diamond Light Source, the UK’s national synchrotron source, jointly funded by the Ada Lovelace Centre and
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tomography. To this end, you will utilize pattern matching to identify characteristic sample features both in X-ray tomographic images and the focussed-ion beam workstation in which the samples for electron
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additives) for non-aqueous aprotic sodium ion battery electrolytes with increased safety You determine the physicochemical (e.g., water content, viscosity, etc.) thermal (TGA, DSC) and safety related (SET
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work. A model is to be developed to estimate the material mass breakdown for various cell designs and cell formats. The model will be validated from teardown analysis of commercial lithium-ion battery
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Funding Source: Industry Sponsor Company: HMGCC Stipend: standard UKRI – for 2025 its £20,780. Funding Period is 3.5-years Start Date: 6th October 2025 Project Page – Centre Project Overview
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Physics , Experimental Ultrafast Physics , Field Theory , Fluid Physics , Fundamental Quantum Science , GR-Cosmology (gr-qc) , Gravitational Physics , Gravitational Theory , Gravitational Wave Sources
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consolidation methods, and characterization of materials through X-ray, electron, and ion beam methods. Preferred Qualifications: Strong analytical skills are beneficial, including but not limited to scanning
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characteristics are intricately linked to the electronic configurations of the f -element ions, and any modifications in these configurations result in dramatic changes in their physical and chemical properties
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of inorganic ions and organic matter can cause defects in electrolyser stacks, resulting in costly process disruptions. This project considers: i) development of analytical methods for the quantification
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Degree Dr rer nat/PhD Course location Jena In cooperation with Helmholtz Graduate School for Hadron and Ion Research, Abbe School of Photonics, Graduate Academy of FSU Jena Teaching language English