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thin films for emerging technologies. By combining state of the art physical vapor deposition, high throughput experimentation and data science, we develop thin films with enhanced performance and
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. Empa is a research institution of the ETH Domain. Within our focus research Digital Health Solutions, we develop technologies for continuous long-term monitoring of individuals. At the Biomimetic
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project aims to develop hydroborate-based all-solid-state batteries. A central objective is to achieve a deep, mechanistic understanding of the processes that govern electrochemical performance and cycling
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to study and predict. In this four-year SNF-funded project, you will develop data-driven, multiscale simulation methods that combine computer simulations, machine learning, and surrogate models to explore
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Cells Your tasks Deposit perovskite absorbers and passivation layers with vacuum-based methods Develop novel in-situ/in-operando characterizations (including muon spectroscopy) to investigate defect
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tasks You will be based at Empa to characterize the physio-chemical properties of plastic particles and will use ice nucleation instruments at ETH Zurich to simulate cloud ice formation processes. Prepare
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“Hydrogen Spectroscopy” is further involved in hydrogen science & technology for novel energy storage technologies such as power-to-gas. The aim of the project SHARC is to develop an instrument that can
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multifractal analysis, urban and energy planning, geography, and artificial intelligence to develop coherent and resilient approaches for urban energy infrastructures under land-use constraints such as No Net
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on materials and device innovation for sustainable energy technologies. PhD Position on All-Solid-State Batteries Your tasks This PhD project aims to develop hydroborate-based all-solid-state batteries. A
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interactions and their integration with wider energy networks. Your tasks The focus of this research is to design and develop (physics-informed) hierarchical graph neural network architectures that can capture