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are internationals. In total, it has more than 600 students in its BSc and MSc programs, which are based on AAU's problem-based learning model. The department leverages its unique research infrastructure and lab
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, which are based on AAU's problem-based learning model. The department leverages its unique research infrastructure and lab facilities to conduct world-leading fundamental and applied research within
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600 students in its BSc and MSc programs, which are based on AAU's problem-based learning model. The department leverages its unique research infrastructure and lab facilities to conduct world-leading
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compute resources, proteomics, metabolomics and advanced microscopy. Your competencies Documented experience with large scale microbial metagenomics and Oxford Nanopore Technologies sequencing, wet lab
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metagenomics and Oxford Nanopore Technologies sequencing, wet lab method development and DNA library preparation for Oxford Nanopore sequencing. Large experience in bioinformatics, machine learning and high
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fermentation process to produce large amounts for feeding trials by project partners. The work will be focused around applied microbiology and fermentation technology ranging from lab scale to 100 liter pilot
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research infrastructure and lab facilities to conduct world-leading fundamental and applied research within communication, networks, control systems, AI, sound, cyber security, and robotics. The department
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to model development. Experience with reaction mechanisms and an understanding of how lab-scale findings may inform scale-up considerations would be a strong advantage. We are looking for someone who can
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that over time, this approach will foster new fundamental discoveries, change the state of the art, and offer novel ways for pain treatment. Our world class lab facilities enable advanced quantitative sensory