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Research Studentship in ‘Thermal Runaway Processes in Li-ion Batteries’ 4-year D.Phil. studentship EPSRC Industrial CASE Studentship Supervisor: Prof Paul Shearing This studentship is being jointly
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costs compared to fossil-fuel counterparts; reduced vehicle payloads; ranges limitations; lack of charging infrastructure; degradation of battery capacities with time etc. These challenges are holding
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costs compared to fossil-fuel counterparts; reduced vehicle payloads; ranges limitations; lack of charging infrastructure; degradation of battery capacities with time etc. These challenges are holding
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Description Work Plan/ Main Tasks: The aim is to develop the following main tasks: 1) Investigation and recognition of different chemical elements using IBA (Ion Beam Analysis) techniques, particularly EBS
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related to instrumentation and infrastructure the Electron-Ion Collider, Noble Liquid Detectors and novel computing methodologies. We invite eligible applicants for this position with the possibility
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. Hosting what is designed to be the most powerful heavy-ion accelerator, FRIB enables scientists to make discoveries about the properties of rare isotopes, nuclear astrophysics, fundamental interactions, and
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-lived nuclei not normally found on Earth. Hosting what is designed to be the most powerful heavy-ion accelerator, FRIB enables scientists to make discoveries about the properties of rare isotopes, nuclear
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nuclei not normally found on Earth. Hosting what is designed to be the most powerful heavy-ion accelerator, FRIB enables scientists to make discoveries about the properties of rare isotopes, nuclear
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materials, (3) battery materials, (4) artificial intelligence materials, (5) data science, (6) metal and inorganic materials, (7) organic and polymer materials, (8) biotechnology-related materials, (9
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) Biological ion exchange: the power of biological water treatment Rubaiya Rumman Doctor of Philosophy in Civil Engineering (PhD) Wood fly ash-based self-healing concrete using encapsulated chemical agents