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- Analytical Food Chemistry at Technical University of Munich
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Your Job: Many technologically important material properties are closely related to disorder and short-range structural correlations. Diffuse scattering observed in a diffraction experiment on
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mechanisms occurring in these materials and their synthesis over all relevant length scales (e.g., cutting-edge ab initio methods, atomistic simulation methods, multi-scale modelling, machine learning) High
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industrial engineering of similar Knowledge of thermal process engineering, reaction engineering, thermodynamics, process engineering, ideally in combination with plant modelling or control Experience with
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of internationally visible, foundational research in AI-driven semantic structure extraction, automated reasoning-flow modeling, and adaptive content generation. The research focuses on methods for analyzing and
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manufacturing in resource strategies and system models for evaluating long-term transformation paths Your Profile: Excellent master`s degree in engineering, materials science, industrial engineering, energy
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energy system models based on the institute`s own open-source FINE framework https://github.com/FZJ-IEK3-VSA/FINE. Your tasks in detail: Implementing geothermal plants with material co-production in
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. Their molecular behavior has profound effects on soil hydraulic properties and biome stability. However, despite advances in continuum modeling of soil and plant-water systems, the molecular-scale mechanisms
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Your Job: The PhD project is methodologically independent and embedded in a multidisciplinary research environment at the interface of artificial intelligence, scientific imaging, and materials
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matching • subject convincing dyes to extensive evaluation with respect to fibre-dye relationships and dyeing models • study dye characteristics and behaviour during textile recycling and optimise parameters
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: Investigate and design optimal computing and communication architectures for hardware acceleration of large-scale machine learning workloads Perform characterization and modeling of electronic and optical