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to the nanometer scale. The investigated materials and systems play an essential role in sustainable technologies like water- and CO2-electrolyzers, as well as in fuel cells. Your tasks in detail: Design and set
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to the nanometer scale. The investigated materials and systems play an essential role in sustainable technologies like water- and CO2-electrolyzers, as well as in fuel cells. Your tasks in detail: Manufacturing
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Academy of Sciences. The TeAM-uP project will investigate the effects of arbuscular mycorrhizal fungi (AMF) on soil and rhizosphere hydraulic properties and its consequences for host plant water and
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electrolytes You determine the relevant physicochemical (e.g., water content, viscosity, etc.) and thermal (TGA, DSC) properties of nonaqueous aprotic electrolyte formulations You characterize properties and
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components in electrochemical hydrogen technologies, most importantly in the form of electrocatalytic layers (ECLs) of fuel cells and electrolysers. The nanoporous structure steers the transport of ions, water
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determine the physicochemical (e.g., water content, viscosity, etc.) and thermal (TGA, DSC) properties of nonaqueous aprotic electrolyte formulations You characterize properties and behavior of nonaqueous