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Field
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shape change! We offer you optimal conditions for the successful completion of your doctorate: The opportunity to complete a doctoral thesis within 3 years through professional supervision and internal
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and control of variables that influence the coating outcome. This data not only aids in optimizing production processes but also plays a crucial role in compliance with industry standards and
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human patient samples and cutting-edge AI-driven analyses Validate computational findings through functional laboratory experiments Develop and optimize protocols involving omics methods, immune cell
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spectroscopic or microscopic methods and subsequent optimization Advancements of experiments, measuring methods and measuring technology and improvement of experimental equipment Presentation of results
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optimizing their properties for 3D bioprinting of different tissues. PhD topic 2: The research project addresses the possibilities to manipulate the thin film morphologies of block copolymers having charged
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, including maintenance, alignment, quality control, trouble shooting and cleaning Supporting scientists in their work on the microscopes, in particular regarding optimization of sample preparation and
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the optimization and validation of new assays in compliance with regulatory standards to make them clinically available (e.g., IVDR, ISO 15189, ISO 17020) Contribute to the certification and implementation
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An international, committed, and collegial working environment Excellent scientific equipment and the latest technology Qualified supervision by academic colleagues Optimal conditions for balancing work and private
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on the recently published DeepRVAT framework, which leverages advances in machine learning to learn an optimal rare variant aggregation function in a data-driven manner. You will have the opportunity to spend
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profile to the existing research areas at the institute in order to optimally complement the existing competencies. Cooperation and networking within the faculty especially with the institute of pharmacy