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professors and almost 50 senior researchers, as well as around 50 doctoral students. The AM division conducts broad research in applied mathematics, with an emphasis on numerical analysis for partial
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are: Ultra-High Vacuum Scanning Tunneling Microscope and the vacuum suitcase Infrared Spectromicroscopy Platform (MJOLNIR) Scanning Electron Microscope (+ elemental analysis) More detailed information can be
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), protein and nucleic acid extraction (e.g. from cells and tissues) and functional (epi)genomics (e.g. DNA methylation analysis, CUT&RUN). You have strong interest in the repetitive genome, transposable
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. The research approach is expected to have a significant experimental element. It is positive if the research complements and connects to the research currently being conducted at the division, and if
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) of nanoparticles, especially extracellular vesicles and biomolecular analysis of these. Work duties You will primarily devote yourself to your doctoral programme, which includes participation in research projects as
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force microscopy (AFM), fluorescence microscopy, cell biology, and data analysis. The workplace offers modern laboratory facilities and access to advanced infrastructure for cell and molecular biology
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hierarchical characterization. The project is mainly computational with an experimental component. The successful candidate will have the opportunity to: Establish novel AI reconstruction algorithms based
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. The main task is laboratory work and data analysis. In addition, you will present research nationally and internationally at conferences, and write scientific articles and grant applications. Some
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being a Lund University employee: Work at Lund University. Work duties and areas of responsibility The research assignment consists in you independently conducting analysis and validation
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activities relating to exploiting synchrotron x-ray tomography to study the mechanics of metallic materials. Your work will involve the development, running and analysis of in-situ experiments exploiting x-ray