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, to allow us to optimize materials properties. Your tasks Develop multi-material models at the atomic and molecular level to enable us to optimize materials processes and designs Using experimentally obtained
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Institute of Technology in Lausanne (EPFL) and is specialised in robot design, hardware development and multi-modal robot mobility. Your tasks Focus on the design, control and integration of a novel
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of lightning-inspired innovation for a sustainable world. It comprises world-leading scientists and highly skilled engineers specialized in plasma technology applications, making it the key plasma chemistry
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company in Zurich. Your tasks Your tasks will include the design of testing equipment required to imitate the working mechanism of an industrial application. A significant part of this will be
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molecules in the gas phase. This interdisciplinary project is funded by Swiss National Science Foundation and the Swiss Agency for Innovation Promotion. It lies at the interface of fundamental research and
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Foundation and the Swiss Agency for Innovation Promotion. It lies at the interface of fundamental research and science-based innovation and involves close collaboration with our partners at ETH (Prof. F. Merkt
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antimicrobial coatings. This project aims to tackle the growing challenge of infections caused by resistant bacteria through designing innovative, non-toxic and durable antimicrobial solutions. This highly
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applications. Your tasks Plan and conduct experiments on thin film CIGS solar cells and modules Devices fabrication (thermal/e-beam evaporation, chemical bath deposition, sputtering, atomic layer deposition
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molecules in the gas phase. This interdisciplinary project is funded by Swiss National Science Foundation and the Swiss Agency for Innovation Promotion. It lies at the interface of fundamental research and