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plant design is identified by considering the energy supply system, the choice of capture technology, the DAC-plant’s technical design, the DAC-plant’s operational concept and the positioning of the DAC
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highly qualified scientists at IEK-13 Network with globally leading academic and industrial partners Excellent prospects and career opportunities in a highly dynamic technology sector Diverse opportunities
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to bridging the gap between fundamental research and industrial application of high-temperature materials. Your tasks include Development of microstructure - property correlations through advanced corrosion and
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materials will be optimized and new materials will be investigated based on theoretical predictions. At the end of the project, the industrially scalable production of a high-performance active material
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materials for the electrodes with industrial relevance and high-performance cells are to be demonstrated. The work is part of a Franco-German project on high-performance batteries and also includes a research
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or solid electrolytes through targeted modification as part of the doctoral thesis. At the end of the project, efficient active materials for the electrodes with industrial relevance and high-performance
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., within the HITEC Graduate School) Network with globally leading academic and industrial partners Excellent prospects and career opportunities in a highly dynamic technology sector 30 days of annual leave
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to develop and advance battery chemistries by introducing new functionalities into an existing battery technology to achieve ultra-high performant, sustainable and smart lithium-ion batteries. Your tasks in
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well as increasing sector coupling Analysis of the influence of current and future flexibility options, PtX technologies and industrial processes Development of the interfaces to other grid models such as gas and