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Scale Physics group led by Prof. Peter Liljeroth. The group consists currently of 3 Academy Research Fellows, 1 Postdoctoral Researcher and 5 Doctoral Researchers. The group focuses studying physical
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the steel, slag and dust during EAF steelmaking. The presence of these residual elements in the slag may influence its physical and chemical properties, including composition, viscosity, surface tension
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combustion environments. Alternative fuels have a different chemical composition from natural gas, which would change depending on the production method used. These unique compositions would translate
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vapour deposition (CVD) remains a leading method for CNT synthesis, yet the role of catalyst composition in controlling CNT morphology and purity is still not fully understood. This PhD project, in
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electrochemical decontamination procedure to be able to carry out controlled surface decontamination treatments, (ii) optimisation of the decontamination efficiency using COMSOL finite element simulations, and (iii
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be located in Central Cambridge, Cambridgeshire, UK. The key responsibilities and duties are to conduct direct numerical simulations of turbulent flows over rough surfaces under non-equilibrium
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. The effect of hydrogen gas on coating performance and the resulting corrosion behaviour will be assessed, supported by hydrogen permeation measurement using a novel diffusion cell set-up. The Zinc composition
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ultrafast laser pulses on femtosecond timescales. Combining nanofabrication, electromagnetic simulation, and pump–probe laser measurements, the project will explore how 3D geometry, and different materials
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About the Project Main description: Fiber-polymer composites are innovative ad sustainable alternative in construction due to their lightweight, excellent fatigue and durability, which are widely
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of Vienna. This currently includes one full professor, one tenure-track professor, four postdoctoral researchers, four PhD students, an organisational assistant, and student assistants and interns (see https