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experiments on PEM water electrolysis and conduct some additional experiments Define useful data and store data and meta-data in a suitable RDM repository Define additional questions that may be answered based
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an optimum structure on small scales from the micrometer to the nanometer scale. The investigated materials and systems play an essential role in sustainable technologies like water- and CO2-electrolyzers, as
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an optimum structure on small scales from the micrometer to the nanometer scale. The investigated materials and systems play an essential role in sustainable technologies like water- and CO2-electrolyzers, as
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an optimum structure on small scales from the micrometer to the nanometer scale. The investigated materials and systems play an essential role in sustainable technologies like water- and CO2-electrolyzers, as
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(AMF) on soil and rhizosphere hydraulic properties and its consequences for host plant water and nutrient uptake as well as carbon flows under drought conditions. You will be responsible for extending
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their activity. Despite that a typical AEM water electrolyzer operates with a standardized cathodic electrode for H2 production, there is great scientific interest in developing an efficient anodic electrode
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. Identify the techno-economic parameters as well as the land and water requirements for these protein sources. You have the opportunity to develop different scenarios from your results in order to model and
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additives) for nonaqueous aprotic lithium ion battery electrolytes You determine the relevant physicochemical (e.g., water content, viscosity, etc.) and thermal (TGA, DSC) properties of nonaqueous aprotic
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. The nanoporous structure steers the transport of ions, water, and gas molecules, and it maximizes the active interfacial area between electrode and electrolyte phases. A deep understanding of the complex interplay
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additives) for nonaqueous aprotic sodium-based battery electrolytes You determine the physicochemical (e.g., water content, viscosity, etc.) and thermal (TGA, DSC) properties of nonaqueous aprotic electrolyte