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the traditional boundaries between the areas of materials physics, materials processing, and materials science. One of the key goals is to synthesise proper materials, whose properties can be controlled by
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controlled by tailoring their microstructure and to develop a direct link as well as a closed loop between processing and fabrication of materials on one hand, and material characterisation and simulation
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. Weinstein (DTU Chemistry) to develop novel molecular ML methods and use them to control, steer, and learn from large scale wetlab experiments. You will deploy these methods in collaboration with Prof. Katrine
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laboratory facilities for culturing as well as experimental work on microalgae in temperature-controlled rooms, advanced microscopy and imaging labs as well as a molecular lab. The post doc will collaborate
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and actuate [2], which opens new possibilities for controlling cellular function. In the recently funded RIBOTICS (RNA Origami Technology in Cell Systems) project, the lab aims to develop RNA origami
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and actuate [2], which opens new possibilities for controlling cellular function. In the recently funded RIBOTICS (RNA Origami Technology in Cell Systems) project, the lab aims to develop RNA origami
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and actuate [2], which opens new possibilities for controlling cellular function. In the recently funded RIBOTICS (RNA Origami Technology in Cell Systems) project, the lab aims to develop RNA origami
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facilities, including advanced MRI scanners, laboratories, and animal facilities. The department employs around 670 academic staff, 500 PhD students, and 160 technical/administrative staff. You can read more
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structures. You will work closely with computational researchers to gather data, evaluate AI predictions, and design experiments. You will work in a team with 7 PhD-students and 4 postdoctoral researchers and