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on the development and optimization of catalysts from aerogels. The work includes the synthesis, modification and characterization using state-of-the-art analytical techniques and their application in
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and thus the optimal compatibility of studies and practice. We value and promote the diversity of our employees' skills and therefore welcome all applications - regardless of age, gender, nationality
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computing are future issues that our researchers are dealing with. Our research fields are in the following areas Divisions and Departments - Fraunhofer ITWM "Optimization" "Flow and material simulation
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of these studies is to develop optimized treatment strategies in rheumatic diseases and to bring engineered Treg cell approaches and improved B cell depleting cell products into clinical trials. The joint
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What you will do You will develop, investigate and optimize processes for the realization of fiber preforms using MCVD technology as well as gas-phase or solution-doping techniques for active fibers
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processing - Study actin-based processes critical for health and disease using the cryo-ET workflow, from cell sample preparation and optimization to imaging and data analysis - Use computational tools for in
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into the digital world. An evaluation based on the combined information from various sensors is to be carried out for optimal monitoring of the processes. What you will do You will be responsible for expanding
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and evaluation of innovative data- and machine learning-based systems to integrate more renewable energy into our energy systems and make energy use more efficient. We develop new optimization methods
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if they are equally suitable. Our tasks are varied and customisable - we work together with applicants with disabilities to find solutions that optimally promote their abilities. The same applies if they do not fulfil
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Your Job: As part of the on-going EU project – LOCALISED (https://www.localised-project.eu/), this thesis focuses on integrating regional climate adaptation measures into an existing optimization