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develop new quantitative tools to study human tissue in a clinically relevant context. Gothenburg is quickly becoming a hub for life sciences in the Nordics, with a strong focus on research and innovation
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arthritis. In the project, the scholar will obtain qualifications within among others Design, acquisition, and analysis of single-unit afferent recordings using microneurography Design, acquisition, and
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decision-making in clinical settings. Project description In this project, we plan to combine AI-driven telemonitoring with specialized home care to improve management of heart failure patients. Using AI, we
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to reduce the complexity in simulating lake physical dynamics at scale. Borrowing from numerical methods used to design wind turbines and understand turbulent combustion in jet engines, this research aims
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keeping up to date in the research domain, driving the research, designing and performing experiments, analyzing the results, maintaining collaborations, writing scientific articles, presenting the research
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/medical-sciences/research/research-groups/molecular-precision-medicine ), engaging in translational genomics research with clinical relevance. The role includes designing and performing wet-lab experiments
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together, large and small, contribute to a better world. We look forward to receiving your application! The Wallenberg Launchpad (WALP)-funded research group in the division of Materials Design is seeking a
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design and simulation, laser fabrication, and material and device characterization. We have developed a novel thin-film lift-off process for AlGaN-materials based on electrochemical etching, which allows
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for efficient emission through a combination of advanced spectroscopy, electrochemistry and device design and development. You will collaborate closely with other members of the group as well as external academic
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and practical applications such as dynamic metalenses or holograms. The detailed project will be designed together with the selected candidate. Examples of recent research from our group in