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detachment, will make myopia the leading cause of blindness worldwide. Our team aims to understand the cellular and molecular mechanisms of myopia and to develop new therapies that can halt or reverse myopia
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to engineer human cells and develop advanced gene and cell therapies targeting cancer, as well as metabolic, neurodegenerative, autoimmune and infectious diseases. For more information, please consult our
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track. We then develop and evaluate a robust cannabis-driving detection model before and while driving. Ultimately, we are working towards a scalable digital biomarker platform for in-vehicle driver state
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bottom-up approach to robotics and develop soft materials and devices that would enable unusual form and unconventional functions for broader robotic applications. Project background The introduction
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aiming to improve the management of infected wounds. Our group is focused on: i) Developing novel fluorescent-based detection approaches for the continuous monitoring of wound healing. ii) Achieving
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from this research inform the development of new diagnostics, treatments, and vaccines against malaria, tuberculosis, schistosomiasis, Chagas and other neglected tropical diseases. Within the Parasite
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scientific questions or develop algorithms that perform automatically some challenging tasks. This typically involves exchanging actively with collaborators and domain experts to understand the precise
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, particularly on measurements and searches using jet substructure and development of advanced techniques in particle tagging, including applications using machine learning, and are expected to take leading roles
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interfaces for fast, stable energy storage. Our research explores molecular interactions and charge transfer using advanced spectroscopy. This guides the development of better batteries and supercapacitors. We
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their exploitation for network design. The SCF staff works closely with the Lab Automation Facility (LAF) team, which develops and maintains complex robotic setups integrated with readout technologies