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Field
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microstructural engineering will focus on in-situ optimization of the local distribution of grain sizes, crystallographic orientations, and stresses by the novel possibility of varying the laser beam shape and spot
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objective of the research group ‘Crop Physiology’ is to understand the physiology of plants down to the structure and function of genes and proteins as well as relevant mechanisms, which allow optimizing
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Contact persons Research Back Research infrastructure Back Digital Humanities Center LISA+ Quantitative Biology Center (QBiC) Tübingen Structural Microscopy (TSM) Research Data Management (RDM) Core
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of therapeutic proteins targeting fibrotic and angiogenic pathways in ocular disease. This includes structure-guided engineering of extracellular matrix mimetics, such as decorin and lumican variants, and de novo
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and optimize molten salt thermophysical property measurements, develop and utilize theoretical models and frameworks to predict salt properties, molten salt thermophysical property database expansion
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valorization of microalgae for biotechnological applications. Successful candidate is expected to have: Experience in isolation, culture techniques of microalgae and cyanobacteria strains, growth optimization
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Fellow position in innovative prosthesis production. The successful candidate will work with a dynamic team of researchers to develop and optimize novel techniques for the production of prosthetic devices
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topological photonics and nanophotonics. This will involve analyzing and computing topological properties of photonic structures, as well as planning and envisioning new research directions. The project is
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(http://www.swgo.org ), which is planning the construction of a wide-field-of-view, and very high duty-cycle, ground-based gamma-ray observatory in Chile. The position will have equal components
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. Investigate the thermodynamics and interfacial structure-property relationships of materials intended for thermal energy storage to deepen understanding and optimize performance. Develop innovative approaches