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-molecule fluorescence microscopy. The candidate will also contribute to the development of novel microfluidic techniques. The ideal candidate should demonstrate a strong commitment to collaborative and
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microscopy, scattering, bio-sensing and microfluidics techniques and work on a range of protein systems — including alpha synuclein and TDP-43. At DTU-Bioengineering you will break new ground at the absolute
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experiment including immune assays, microscopy, and/or microfluidics? Then you could be the ideal PhD candidate for this position! What are you going to do? We are looking for a highly motivated and skilled
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well as membrane embedded and encapsulated proteins. To do so, the student will develop methodologies for lipid vesicle formation, including bulk techniques such as water-in-oil emulsions, and microfluidic systems
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models using 3D printing (advantageous); experience with microfluidics (advantageous). Language requirements: English, active knowledge, Certificate in Advanced English – Council of Europe Level C1
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-molecule fluorescence microscopy. The candidate will also contribute to the development of novel microfluidic techniques. The ideal candidate should demonstrate a strong commitment to collaborative and
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of microfluidic experiments combined with advanced analytical techniques. The results will inform environmental remediation strategies and safe nuclear waste disposal. Your tasks within the project: Development
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. Responsibilities and qualifications You will be responsible for handling biological samples, implementation of automated solid phase extraction (SPE) on blood samples, fabrication of centrifugal microfluidic devices
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biophysical disease markers. Experiments will be performed using AFM and FluidFM methods on the available advanced bioAFM instrument. A novel patented multifunctional microfluidic AFM probe will be used
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investigates molecular mechanisms in microbial cell biology using a combination of bacterial genetics, biochemistry and sophisticated imaging techniques including super resolution microscopy and microfluidics