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multidisciplinary team and possess a proactive, innovative approach to problem-solving in research. Desirable skills: Prior experience with hydrogel development, 3D cell culture techniques, and a thorough
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Optimizing a 3D microfluidic IVD model to study cell responses to wear particles, refining culture conditions, and analysing cytotoxic and inflammatory mechanisms. Optimizing a 3D microfluidic IVD
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conceptual background in cellular immunology. Experience in tissue culture. Applicants need to have a background in immunology, genetics or bioinformatics. They must have completed a relevant Bachelor’s Degree
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related field. Applicants with prior research experience and/or publications in areas such as cell biology, immunology, vascular biology, neurology, or bioinformatics are strongly encouraged to apply
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PhD Scholarship in ‘Using nanoparticles to enhance the immune response and improve vaccine efficacy’
. Animal handling experience preferable. Desirable criteria: Practical experience and conceptual background in cellular immunology. Experience in animal (specifically mouse) handling. Experience in tissue
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relevant Bachelor’s Degree and Honour’s or Master’s. Desirable criteria: Practical experience and conceptual background in cellular immunology. Interest in, and ability to, work in an interdisciplinary
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to the designated supervisor for consideration. The awarding of the PhD scholarship is contingent upon successfully passing the interview process. Basic knowledge in cell biology is highly desired. Basic knowledge in
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. Specific projects seeking applications are: Accelerating the discovery of inorganic solar-cell materials via a closed-loop, fully robotic synthesis–characterisation platform driven by multi-agent machine
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development, tissue regeneration, and stem cell maintenance. Unregulated activation can lead to various illnesses, including immunological dysregulation, infections, and the development and advancement
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This project seeks to pinpoint cellular and molecular epigenetic mechanisms that drive age-related immune-senescence and inflammation, critical to the decline in immune function and ability