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live in. The Department of Engineering (DoE) is a dynamic, interdisciplinary group engaged in civil, electrical and mechanical engineering, driving forward innovative research and solutions. It also has
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scientist to study the human-specific genetic mechanisms of development and function of cortical neurons. Join us to undertake a highly interdisciplinary project focusing on a long-standing and fascinating
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obstacles in a quasi-2D flow cell or induce rotational shear using planar or cylindrical substrates that confine the liquid. In addition to the design and physical assembly of mechanical components
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has a strong track record in exploring urology‑relevant sensory mechanisms, with translational relevance for conditions such as chronic pain, bladder dysfunction, and other urinary tract disorders
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mindset of using motors to drive passive structural components by developing innovative materials that combine the structural features and mobility in a single component. These are liquid crystal elastomers
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that mimick human striatal function and we are using these systems to study the mechanisms of Parkinson’s disease. The system, that involves a high density multielectrode array enables us to measure single
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single-cell and spatial multi-omics datasets. The primary focus of this role is to delve deeper into the molecular mechanisms driving intra-tumor heterogeneity, plasticity, and therapy resistance