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the Intel-Merck consortium (the AWASES programme), available as soon as possible (at latest by September 2024). The postholder will work with Dr. Bora Karasulu (University of Warwick, Chemistry Department
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, these allow flexible descriptions of atomic environments [1] . This flexibility comes with the challenge of needing to choose parameters for these models that accurately describe complex material processes and
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for their pharmacological properties, but also for their synthetic viability. Typical drug molecules can contain up to 100 non-hydrogen atoms, which makes the development of cost-effective and efficient synthetic pathways
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Supervisors: Supervisors: Dr. Albert Bartok-Partay (Physics), Prof. James Kermode (Engineering), Dr Livia Bartok-Partay (Chemistry) Summary: In high-performance applications such as aerospace and
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Centre, WMG, University of Warwick Subject Areas: Chemical engineering, Chemistry, Metallurgy, Thermodynamics, Kinetics, Physical Chemistry, Green Technology, Green Steel Manufacturing
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Supervisors: Supervisors: Dr. Nicholas Hine (Physics), Prof. David Quigley (Physics), Dr. Alex Robertson (Physics) Summary: Developing battery technologies requires atomistic insight
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challenging due to their differences in physical and mechanical properties. Also, joining of steel to Al by fusion welding methods such as laser welding results in formation of brittle iron intermetallic
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Number of Opportunities Available: 1 fully funded place Supervisors: Dr. Bora Karasulu (Chemistry), Dr. Albert Bartok-Partay (Physics) Summary: Solar modules incorporating lead-halide perovskites
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Number of Opportunities Available: 1 fully funded place Supervisors: Dr Katarzyna Macieszczak (Physics) Prof. David Quigley, (Physics and Scientific Computing Research Technology Platform) Summary
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are needed to increase battery cycle lifetimes. Recent battery studies have revealed the Li-ions can get trapped behind atomically thin surface layers formed by the oxygen loss. Modelling the transport