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shapes. Motivating examples include the spatio-temporal dynamics of sweat droplets, interacting cellular or tissue shapes, and geometric structures arising in vegetation such as tree canopies. The work
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Institute of Molecular Mechanisms and Machines, (IMOL), Poland, and the Leicester Institute of Structural and Chemical Biology, United Kingdom. Your work may include clinical and biomedical projects. It may
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protein assemblies with precise geometry, thereby creating molecular structures capable of transferring electrons and interacting with light. Such assemblies also have applications in biomedicine
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communication skills with other researchers. You should be goal-oriented, self-driven, structured, have good problem-solving and analytical skills, and be able to work effectively both individually and in groups
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Lab for day-to-day experimental work, but will be fully embedded in both laboratories, with structured co-mentorship from Nyberg and regular integration into both research environments. For more
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between different groups, including those of Sara Linse (Division on Biochemistry and Structural Biology) and Emma Sparr (Division of Physical Chemistry, Lund University). Connections to other experimental
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. This involves using cutting-edge microscopy and spectroscopy to investigate their unique electronic, structural, and plasmonic properties. Project 2: Exploring the synthesis of metallene layers sandwiched between
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microscopy and spectroscopy to investigate their unique electronic, structural, and plasmonic properties. Project 2: Exploring the synthesis of metallene layers sandwiched between SiC and graphene
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construction, strong bioinformatics skills, and a proven track record of molecular and cell biology studies, preferably documented by publications and/or thesis work in this area. Experience with antibiotic
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Department of Clinical Microbiology The Dwibedi research group at the Department of Clinical Microbiology and the Laboratory for Molecular Infection Medicine Sweden (MIMS; https://www.mims.umu.se