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, their cloud interaction abilities can regulate their life cycle and environmental impacts. Project background Micro- and nano-sized plastic particles (MPs and NPs, collectively called MNPs) are an emerging
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for 5G and WiFi communication and provide accurate motion and sensing at the smallest length scales. The growing need for highly integrated micro-electro-mechanical systems (MEMS) necessitates
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of electrochemistry. Your tasks The student will be involved in tasks such as Designing innovative electrode materials with precisely engineered nanostructures; Fabricating the electrode materials using micro
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Laboratories for Materials Science and Technology (Empa). Our team is highly interdisciplinary and international, providing an inspiring environment for high impact research. We have internal expertise in (micro
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heating and cooling, storage, and local electricity grids. A key goal is to translate methodological innovations in deep learning into practical tools for sustainable urban energy systems, supporting
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for high impact research. We have internal expertise in (micro)biology, chemistry, and materials engineering, and we have strong collaborations with external academic, industrial, and clinical partners