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. In the Chilean National Action Plan on AMR, a key policy document tackling the country’s approach to this public health threat, self-reported progress on the implementation of the plan showed good
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joining a vibrant community of researchers deeply passionate about sustainable energy, environmental issues, artificial intelligence and sports science amongst others. At the Manchester Fuel Cell Innovation
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accordingly An Innovation, Impact and Business directorate that works closely with our academics providing specialist support for external engagement and development Our Exeter Academic initiative supporting
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of their impact on cellular and molecular phenotype of iPSC-derived neurons and glia. The work will involve (i) establishment of cultures of iPSC-derived neuronal and glial cells (ii) design of CRISPRa/i strategies
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activities promoting research impact. contribute to the design, development, and implementation of robotic and AI systems within the scope of the project. collaborate closely with industrial and academic
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independently. Design, code and refine experimental tasks, protocols and data preprocessing and analysis pipelines, and contribute to writing manuscripts for submission to peer‑reviewed journals. Train junior
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activities promoting research impact. contribute to the design, development, and implementation of robotic and AI systems within the scope of the project. collaborate closely with industrial and academic
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or biomedical sciences. They will be expected to design and conduct experiments independently, have excellent written and verbal communication skills, be highly collaborative, co-supervise students and contribute
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small highly motivated inter-disciplinary team working towards a shared goal. You will be responsible for the design and testing of original machine-learning based algorithms and models for multi-modal
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. The successful applicant will design and synthesise new hypervalent iodine reagents. In-depth stability and reactivity studies will be carried out to understand structure-stability and structure-reactivity