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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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of semiconductor and solar cell physics is required Knowledge of solar cell characterization methods and/or drift-diffusion simulations is useful but not mandatory Our Offer: We work on highly innovative topics and
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Your Job: Future battery technologies are urgently needed to make electromobility and home storage even faster and more powerful. In order to increase battery performance and energy density at cell
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optimized particle morphology Production of model cells based on various solid electrolytes (polymer, ceramic, hybrid) and their electrochemical characterization Optimization of the materials to achieve
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electromobility and home storage even faster and more powerful. In order to increase battery performance and energy density at cell level, electrode materials are to be specifically optimized for high-performance
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(large scale genomic, transcriptomic, proteomic, metabolomic and/or single cell data) using cutting-edge technologies e.g. Artificial Intelligence (AI) Development of novel tools and algorithms in the area
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behavior of nonaqueous aprotic liquid electrolyte formulations in lithium-ion battery cells by means of various electrochemical (EIS, LSV, CV, galvanostatic cycling, dissolution tests, plating-stripping