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Profile: Masters degree in physics, materials science, physical chemistry, electrical engineering and related disciplines Very good grades in the masters and bachelors degrees are mandatory Knowledge
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models and employ computational methods to describe the coupling between ionic nanofluidics, electric double-layer charging, and interfacial reactivity in electrolyte-filled nanochannels. The work will be
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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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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, known
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cells and the proportion of passive components (e.g. current collectors) reduced. These goals can be achieved through new approaches to the production of carbon-based carrier structures (primarily made
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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