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limitations and become fully realised. This fully funded PhD project aims to characterise and understand liquid crystalline based materials and optical devices for future AR/VR technologies. This studentship
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metamaterials of various shapes, materials and textures and model their interaction with the upcoming waves. In the end, this project enhances our knowledge of PBs and provides practical solutions in their design
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will be based at the University of Cambridge in the Department of Materials Science and Metallurgy as part of the Structural Materials Group. The Structural Materials Group is a diverse and dynamic
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screen-printing techniques for conductive materials, chemical functionalization processes for electrode-to-sensor conversion, and electrochemical data analysis. Additional training includes electrode
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second-class undergraduate honours degree in Engineering, Physics or Materials Science Excellent English written and spoken communication skills Being passionate about science, curious, and self-driven
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, to interact with colleagues with different backgrounds (physics and engineering) and from different disciplines (i.e., electromagnetism, RF communications, material science). Details of the project will be
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Primary Supervisor - Dr Martin Taylor Scientific Background Mimicry—where species share similar colour patterns to signal unpalatability—is one of the most striking examples of natural selection in
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in mineralogy, geochemistry, material properties and big-picture Earth Science questions. If your first language is not English, you will need to meet the minimum English requirements for the programme
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challenges which experimentalists must consider – computer simulations of molten salts are therefore a very valuable guide to efficient experimentation. Molten salts have been well-studied using classical
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materials for low-emission ammonia conversion. Perform both experimental investigations and computational simulations of the combustion process. The outcome of this project will demonstrate the feasibility