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: Characterization of catalysts performance and degradation in PEM water electrolysis Mechanistic understanding of catalyst degradation processes, both in PEM and liquid acid environments Further optimization and
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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 well as in
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sustainable technologies like water- and CO2-electrolyzers, as well as in fuel cells. Your main responsibilities include: Synthesis and characterization of iridium-based catalyst particles for oxygen evolution
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field facing drought. We are conducting experiments under field conditions (mini-rhizotrons) with innovative stable isotope monitoring to determine water fluxes. Your tasks in detail: Carrying out and
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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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the project aims to examine the effects of various agricultural practices, like fertilizer use and irrigation, on cereal crops, focusing on subsoil`s role in water and nutrient availability and crop resilience
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the same field. We focus on assessing how this combination affects water, carbon, and nitrogen fluxes, microbial activity, and plant development. In the first phase of the project, experiments were conducted
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raw materials from the electricity. The basic molecule for this is hydrogen. This can be produced via the electrolysis of water (steam electrolysis) or a mixture of water and carbon dioxide (co
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. Cryo-EM has become a very powerful method to visualize ice-embedded samples including purified proteins at close to atomic resolution. Typically, single-particle cryo-EM as well as cryo-ET are based
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laboratory to industrial scale. Our research plays an integral role in several technological advancements of hydrogen fuel cells, water and CO2 electrolyzers. Our goal is to transfer this knowledge