74 parallel-computing-numerical-methods research jobs at Technical University of Denmark
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educational programs and service to society. We are working to develop new environmentally friendly and sustainable technologies, methods and solutions, and to disseminate this knowledge to society and future
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DTU Bioengineering aiming to design novel Carbohydrate-Active enZymes (CAZymes) de novo (from scratch). Using state-of-the-art AI-based protein design tools, the project integrates computational design
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initially constitute a significant part of the work. You will also assist with rat toxicity studies, using methods tailored to specific projects in close collaboration with team members. While prior lab
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or related fields. Preferably strong interest and foundation in immunology, immune cell assays, or translational research. Preferably experience with computer-guided protein engineering. Experience in human
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productively with both the CAISA research team and external organisations and institutions experience with mixed methods Furthermore, it will be considered an advantage if applicants can document: experience
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both methods and assays to determine plant growth and health, and with methods and assays that inform about microbial activity and physiology in situ during plant colonization. Experience in working in
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disciplines may be eligible if they can demonstrate exceptional problem-solving skills and deep expertise computational model development. Candidates who have not yet acquired their PhD would be appointed
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involves working with complex biological samples, primarily blood, with the goal of developing innovative and compact methods for sample pre-treatment. The project is conducted in close collaboration with
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Confederation of Professional Associations. The allowance will be agreed upon with the relevant union. The position is part of DTU’s Tenure Track program. Read more about the program and the recruitment process
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fermentation and formulation methods for whole-cell BioAg products. A central focus will be linking production processes with field performance by studying physiological, chemical, and molecular-genetic