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, medicines, and even fuels. Their properties, like how stable or smooth they are, determine how well these products work. Studying emulsions also helps scientists understand fundamental processes in soft
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3.5-year D.Phil. studentship Project: Efficient engineering and control of predictable and reliable biotechnologies. Supervisors: Prof Antonis Papachristodoulou and Prof Harrison Steel This project
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Experience in design and fabrication of devices and/or Soft Robots Experience in Material Testing/Characterization Basic knowledge of Control Theory Application Procedure Informal enquiries are encouraged and
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encapsulate and embed these molecules into well-defined, injectable microparticles. This is one example of next-generation therapeutics, with a sustained and controlled drug release over a prolonged period
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to electrochemical devices, yet balancing performance and stability remains a challenge. This project will develop humidity-controlled terahertz spectroscopy to probe water properties within membranes, advancing
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to the interior of the cell. GPCRs are involved in multiple physiological process including cell growth, neurotransmission, metabolism & immune response; they can misfunction in disease and consequently have served
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easier to detect and measured experimentally. However, it is not well known yet how this process emerges and how one can control it. This PhD project will focus on developing the necessary theoretical
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theories and models. This project aims to develop new insights into how bedrock incision processes interact with geological and climatic factors (i.e. spatially variable uplift, shield building, mega
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(PBs) offer a promising alternative, reducing wave energy through dissipation and controlled overtopping, potentially mitigating flood risk while minimising environmental impact (Nimma & Srineash 2025
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lacks good surface finishing quality. This project will investigate the science behind titanium chemistry and surface finishing for the control of porosity in engineered lattice components