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. Empa is a research institution of the ETH Domain. Empa’s Laboratory Materials for Energy Conversion focuses on materials and device innovation for sustainable energy conversion and storage technologies
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Laboratory (ORNL). As part of our team, you will investigate the atomic and electronic structures in energy and quantum materials and correlate them with relevant properties for energy and data storage
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. The developed methodologies will be validated experimentally using Chalmers’ existing laboratory infrastructure, which includes: A battery energy storage system A wind turbine An integrated energy management
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batteries hold promise for long-duration storage of electrical energy, and aqueous redox flow batteries aim to combine the speed of storing and retrieving energy with the high safety standards and
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fluorination reactions, addressing critical challenges in energy storage, pharmaceuticals, and agrochemicals. By combining experimental synthesis, in-situ characterization, and DFT-driven computational design
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science and a desire to contribute to the development of next-generation energy storage systems. This position is part of the Smart-Cbat project, funded by the Dutch National Growthfund, which aims
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Your Job: At the Institute for a Sustainable Hydrogen Economy - Catalytic Interfaces for Chemical Hydrogen Storage (IHE-1), we investigate fundamental mechanisms and processes of chemical hydrogen
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coordination of sample testing and evaluation when required. Contribute to the development of innovative battery chemistries, including lithium-ion, sodium-ion, or other emerging energy storage technologies
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Qualifications: PhD in chemistry, physics, computer science, materials science, or a related field with no more than five years of postdoctoral experience Preferred Qualifications: Experience in energy‑storage
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infrastructure materials with integrated energy storage capabilities. The postdoc will work in a highly interdisciplinary environment with close collaboration across internal research groups at the university as