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to the eukaryotic cytoskeleton.[AB2] [BF3] [AB4] The thesis project will focus on electron microscopy (EM) method development. This by combining cryo-EM sample preparation, single particle and helical 3D
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] [AB4] The thesis project will focus on electron microscopy (EM) method development. This by combining cryo-EM sample preparation, single particle and helical 3D reconstruction, as well as in situ
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, lightweight and flexible; (iii) can be fabricated in its entirety by cost- and energy-efficient printing; (iv) can be highly sustainable (free from toxic and rare compounds and potentially recyclable); (v
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entirety by cost- and energy-efficient ambient-air printing; (iv) be highly sustainable (free from toxic and rare compounds and potentially recyclable). The focus of LunaLEC is to leverage these attractive
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entirety by cost- and energy-efficient ambient-air printing; (iv) be highly sustainable (free from toxic and rare compounds and potentially recyclable). The focus of LunaLEC is to leverage these attractive
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in 3D space. You will gain hands-on experience in behavioural studies, animal welfare science, and innovative data collection methods, all within a supportive, collaborative research environment. You
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from 3D-optimized end-walls provided by additive manufacturing (AM). The project outcome will solve the urgent need for CO2 reduction from air traffic. Research environment You will join the Fluid
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: Help develop a non-invasive computer vision method to track and analyze how hens move in 3D space. You will gain hands-on experience in behavioural studies, animal welfare science, and innovative data
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Norrköping that engages the public through data-driven installations and 3D fulldome experiences. Read more at http://visualiseringscenter.se . The employment When taking up the post, you will be admitted