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to create a steady flow of 1000 Bar low voidage emulsion (particle voidage greater than 40%). Alternatives include a high-pressure pump or batch filling and depressurising into a buffer / separation vessel
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dispersion - and develop a system to disperse the particles. The project will explore the options for dispersion and the options for nozzle design and whether substantial additional air supply is needed
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close collaboration with colleagues at Imperial College and partners in Germany and the USA, with the overall aim of exploring novel functional states in ferroelectric domain walls for future nano
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Department: Materials Title: Self assembled non-close packed quantum dot superlattices via high entropy approaches Application deadline: 17/06/2025 Research theme: Nano and Functional Materials How
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Overview: Air quality is a major public health issue worldwide. Two origins are identified for pollutant particles that emanate from passenger cars: those coming from the exhaust (linked
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particles that may trigger early ignition. These phenomena can compromise engine safety, performance, and durability. In this project, you will explore how different oil formulations and engine parameters
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ambitious research team exploring quantum phenomena in large scale and complex systems, from high-temperature Bose-Einstein condensates to trapped solid-state particles in ultra-high vacuum. We combine
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ambitious research team exploring quantum phenomena in large scale and complex systems, from high-temperature Bose-Einstein condensates to trapped solid-state particles in ultra-high vacuum. We combine
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Scattering and Plasmon-Driven Catalysis, 2024, ACS Nano, 18, 18785-18799. https://doi.org/10.1021/acsnano.4c06858
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generated by such collisions can indeed remain in space for a long time and pose a secondary risk to the constellation itself. Even small debris particles with diameters of a few millimetres can cause