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system modelling frameworks to real-world challenges at different temporal andspatial scales. You will work on practical problems ranging from the design of building-level energy solutions and municipal
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the molecular to the scale of the systems. Our work combines process analysis and system modeling to design optimal new technologies and transition pathways simultaneously. To holistically evaluate
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, analyzing as well as integrating omics datasets, and interpreting findings. The candidate will primarily be engaged in the following activities: Develop analysis methods and advise on experimental design
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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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lead a project focused on performing femtosecond laser measurements on arrays of coupled nanomagnets. In addition, you will contribute to the conception and design of cutting-edge experiments at X-ray
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(protein-protein and protein-DNA interactions). Produce stable complexes between proteins and/or DNA. Determine structures of proteins/complexes. Design mutants and perturbations for in vivo experiments
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specifically to XRD-PDF (pair distribution function). The project is linked to crystalline and amorphous alloys, and in an industrial context to process design by establishing the structure-property relationship
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Description of the offer : You will lead a project focused on performing femtosecond laser measurements on arrays of coupled nanomagnets. In addition, you will contribute to the conception and
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Conversion focuses on materials and device innovation for sustainable energy conversion and storage technologies. The aim of the project is to extend cycle life by the controlled release of active lithium
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industrial partner, you will design and implement innovative architectures for real-time detection and control of laser processes. This interdisciplinary role combines artificial intelligence and machine