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: Characterization of the dynamical and structural properties of energy materials using neutron spectroscopy supported by complementary experimental techniques or theoretical simulations Synthesis and physicochemical
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Your Job: Characterization of the dynamical and structural properties of energy materials using neutron spectroscopy supported by complementary experimental techniques or theoretical simulations
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Postdoc – Synthesis and up-scaling of high-performance active materials for Na solid-state batteries
electrode active materials, especially for the positive electrode (cathode), still need to be further developed in order to achieve similar performance to current Li-based active materials. Therefore, within
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position within a Research Infrastructure? No Offer Description Work group: IAS-9 - Materials Data Science and Informatics Area of research: Scientific / postdoctoral posts Job description: Your Job: In our
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are unlimited. The aim of this project is to find superior cathode materials for Na-ion batteries. The goal is to improve capacity and stability as well as ionic and electronic conductivity of cathodes. Ab initio
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of this project is to find superior cathode materials for Na-ion batteries. The goal is to improve capacity and stability as well as ionic and electronic conductivity of cathodes. Ab initio-based approaches
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Infrastructure? No Offer Description Work group: IAS-9 - Materials Data Science and Informatics Area of research: Promotion Job description: Your Job: You will strengthen the data science and machine learning
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Your Job: In a project with a leading German aircraft turbine manufacturer, the Institute of Energy and Climate Research - Materials Microstructure and Properties (IEK-2), investigates deposit
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level, electrode materials are to be specifically optimized for high-performance cells and the proportion of passive components (e.g. current collectors) reduced. These goals can be achieved through new
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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