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candidate with an interest in the application of machine learning to optics, touching upon aspects of computational electromagnetism and inverse design. Information about the project and division Structured
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the application of machine learning to optics, touching upon aspects of computational electromagnetism and inverse design. Information about the project and division Structured optical materials, such as
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conducts research in Engineering Materials, focusing on the design and processing of hydrogen diffusion permeation barriers for steels. The research subject “Engineering Materials” has ongoing research
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and renewable future. In this project, you will design novel electro-thermocatalytic reactors for important chemical reactions involving biomass-derived chemicals. The position is located in the Luneau
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Institutet, comprising over 60,000 nasal secretion samples with defined protection correlates. Detailed IgA characterization will inform recombinant IgA design, which will be tested in stem cell-derived nasal
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amplifier performance. By combining advanced device measurements, empirical modeling, and power amplifier design, this project will generate new insights into the material, process, and design factors
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the centre for Molecular Medicine (CMM). Parlak team focuses on developing novel medical diagnostic methods designing wearable sensors for microbiology, immunology and neuroscience. The group is building new
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initiative focused on developing computational tools for designing protective devices to prevent skull fractures in elderly falls. The project leverages finite element modeling as the foundation of a
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programming paradigms for enabling an application-tailored design of dependable communication and computation systems. Project description You will work on one or both of two major European research projects
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design and photophysical studies of the novel luminescent radicals for OLEDs and investigate the role of quartet excited states in radical OLEDs to make quartets “bright”, design of the novel metal-free