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Your Job: Operando investigations of the dimethyl ether/CO2 system for the hydrogen storage cycle Development of appropriate measurement set-ups with focus on X-ray methods X-ray investigations
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structure on small scales, ranging from the micrometer to the nanometer scale. The investigated materials and systems play a crucial role in sustainable technologies, such as water- and CO2-electrolyzers, as
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in sustainable technologies, such as water- and CO2-electrolyzers, as well as fuel cells. Your main responsibilities include: Synthesis and characterization of catalyst particles for electrochemical
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feed and food production. The project combines anaerobic and aerobic biotechnologies to capture carbon and produce new forms of protein with near complete carbon capture for a climate-positive future
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to conventional feed and food production. The project combines anaerobic and aerobic biotechnologies to capture carbon and produce new forms of protein with near complete carbon capture for a climate
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Max Planck Institute for Intelligent Systems, Tübingen site, Tübingen | Bingen am Rhein, Rheinland Pfalz | Germany | 2 months ago
Interactions” to develop datasets and algorithms to capture and analyze eye gaze. About the project We are supporting the development of highly realistic human and animal avatars for use in research, film
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methods such as Minkowski functionals, Voronoi-based density analyses, and modern cluster and pattern recognition techniques. Your goal is to precisely capture the structural characteristics of crowds and
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for the built environment. Particular emphasis is placed on artificial intelligence in construction, building information modelling, point cloud capturing and processing, as well as construction robotics. The PhD
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Your Job: This research primarily seeks to incorporate advanced neuron models, such as those capturing dendritic computation and probabilistic Bayesian network behavior, into unconventional
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applying systems biology and constraint-based modelling approaches, we aim to capture host–microbiome interactions at a mechanistic level and predict metabolite fluxes relevant to brain health. The project