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Your Job: The electrocatalytic interface engineering department led by Prof. Dr.-Ing. Simon Thiele focuses on synthesis, manufacturing, analysis and simulation of functional materials to find
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addition to technical models allowing to assess technical scaling and an optimal operation. The optimal plant design is identified by considering the energy supply system, the choice of capture technology, the DAC
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for self-supervised learning in science Engage in national and international ML/DL communities, most importantly the Helmholtz Foundation Model Initiative Present research results at scientific meeting
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preparation Deriving insights for film and device fabrication based on the above described workflow Your Profile: Masters degree in physics, materials science, physical chemistry, electrical engineering and
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Your Job: The electrocatalytic interface engineering department led by Prof. Dr.-Ing. Simon Thiele focuses on synthesis, manufacturing, analysis and simulation of functional materials to find
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Your Job: Join the EU funded SAFELOOP project to develop and advance battery chemistries by introducing new functionalities into an existing battery technology to achieve ultra-high performant
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in physics, physical chemistry, chemical engineering, or related field Knowledge and competences in physical theory and modelling Experience and interest in computer programming Basic knowledge
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the field of energy engineering, optimization, climate change, and climate change adaptation. Software development, particularly in Python will constitute a significant portion of your work. Upon completion
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their influence on the overall performance and safety of sodium-based batteries and their chemistry You cooperate with partners from theory to optimize charge transport at the electrolyte/ electrode
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resolution. Your job will include taks in the following areas: Molecular biology and protein biochemistry Electrophysiology (Solid Supported Membrane Based Electrophysiology) Molecular dynamics simulations