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on optical tweezers, atomic force microscopy and advanced fluorescence microscopy to characterize the biophysical properties of the endothelial glycocalyx with suitable cellular and molecular models
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. In this project, you will use a combination of advanced fluorescence microscopy and virological methods to study how viruses overcome the glycocalyx barrier to reach the cell surface. The focus is on
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of viruses, primarily using electron microscopy, complemented by other methods to understand structure and function. The project involves structural studies of diatom viruses with the aim of increasing
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a range of characterization techniques, including X-ray diffraction, electron microscopy, X-ray photoelectron spectroscopy, as well as various electrochemical measurements, with opportunities
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. The position is based at the Laboratory of Organic Electronics at Linköping University, Sweden. Your work assignments Building on our established work in electrophoretic and iontronic drug delivery for precise
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. More information about us, please visit: Department of Chemistry . Project description Title: Metal-organic frameworks pioneered by advanced electron microscopy Supervisor: Assoc. Prof. Tom Willhammar
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diffraction, spectroscopy, thermodynamics, or electron microscopy as well as knowledge of basic programming are meritorious. Consideration will also be given to good cooperation skills, drive and independence
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, bioinformatics, quantitative and structural proteomics, as well as structural biology (cryo‑electron microscopy), to determine the interactions between intact bacteria, bacterial virulence factors, and human
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and adaptive immune system. The work tasks include methods within molecular biology, bioinformatics, quantitative and structural proteomics, as well as structural biology (cryo‑electron microscopy