32 evolution "https:" "https:" "https:" "https:" "https:" "https:" "University of St" research jobs at Lunds universitet in Sweden
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development to biomedical studies. The main research areas include sensitization, immuno-oncology, and biomarkers. The modern facilities are located at Medicon Village, where academic research is carried out
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of the gas-phase composition. The work involves the development and application of advanced experimental methods to link surface structure, gas-phase reactions, and catalytic activity under realistic reaction
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. Consideration will also be given to how the applicant’s experience and skills complement and strengthen ongoing research within the department and how they stand to contribute to its future development. Terms
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vision. Understanding or willingness to learn advanced statistical modeling is a plus Assessment criteria and other qualifications: This is a career development position primarily focused on research
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group which is responsible for the development of the Ambient Pressure X-ray Photoelectron Spectroscopy Program at MAX IV. The beamlines provide a wide range of sample environments for in situ and
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transcripts, details of referees, letters of recommendation, etc.)” We look forward to receiving your application! Where to apply Website https://lu.varbi.com/en/what:job/jobID:910848/type:job/where:39/apply:1
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University initially includes researchers from ten departments, and three areas of research have been identified for strategic development: materials research, integration of batteries with power electronics
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presence. The position is a career development post, and its purpose is to act as an initial step on a career path by providing the opportunity to to deepen and broaden your research expertise. The position
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, and stimulating environment. We value communication and collaboration and a workplace that promotes learning and development for all employees. We are also committed to building a safe and positive
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description The position is funded by a Wallenberg Proof of Concept Grant within the WACQT area. The project is development of a novel potentially quantum-limited microwave amplifier based on hybrid