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industrialized building techniques. Potential research topics include, characterization of wood materials, particularly their mechanical properties, development of engineered wood products (e.g., CLT, LVL, GLT
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(microscopic or mechanical). The successful candidate will carry out research and manufacturing process evaluation to produce structural metallic materials. The applicant will work on a research project
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research team uses state-of-the-art molecular biology and imaging technologies together with high-throughput screening methods to discover functional compounds and to characterise their mechanism of action
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-resolution imaging. By uncovering the molecular-level mechanisms of cilium function, we aim to deepen our understanding of how mutations in these proteins lead to disease. For this role, you should have a
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We are seeking to recruit a highly-motivated Research Assistant to join the David group at the Babraham Institute. The post holder will join a team of scientists studying the mechanisms of healthy
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that are flushed away after use, which has environmental implications. This project will investigate how the energy of mechanical forces exerted by the gastrointestinal tract can be harnessed to power ingestible
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these proteins organise and function inside cells using cutting-edge super-resolution imaging. By uncovering the molecular-level mechanisms of cilium function, we aim to deepen our understanding of how mutations
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place in our labs. As the successful applicant you should hold a MSc/MEng degree and have experience in experimental fluid mechanics. Applications are also welcomed from candidates currently pursuing
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within an established research programme and/or specific research project. This project involves addressing the issue of triboelectric energy nanogenerators to power ingestible devices. Ingestible devices
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to circadian rhythms in population health. This post is part of a large, interdisciplinary research programme, offering attractive opportunities to work across conventional boundaries and pursue hypothesis-led