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, interactions, catalytic mechanisms etc. in real-time. Building on our published and unpublished work, the successful candidate will advance nanopore trapping in new directions using solid-state and biological
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turn fundamentally alter the functioning of ecosystems. Alpine and arctic ecosystems have remained relatively natural so far, but are especially affected by these changes as they are warming faster than
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equitable urban energy systems. Our work combines technology and policy with systems thinking and practical implementation, always grounded in real-world urban challenges. As part of the SWEET DecarbCH
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and the natural sciences, taking an interdisciplinary approach to researching and better understanding the human past from the Stone Age to the present day. IPAS is part of the Department
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. Empa is a research institution of the ETH Domain. Our Laboratory for High Performance Ceramics in Dübendorf, near Zürich, is looking for a PhD Student within a project funded by the Swiss National
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characterization techniques (XRD, SEM), modeling is advantageous Readiness to operate sophisticated equipment, including maintenance and user training Diligent working attitude including precise record keeping
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equitable urban energy systems. Our work combines technology and policy with systems thinking and practical implementation, always grounded in real-world urban challenges. Within the framework of the SWEET
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to fossil chironomid research, applying new approaches for interpreting fossil chironomid records or developing new types of calibration data for further expanding the use of aquatic invertebrate and
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characterization is highly appreciated. We are looking for committed and creative individuals able to work in a team. The candidate will work in a top-level research environment with state-of-the-art laboratory
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how perishable biological products react inside cold chain unit operations and to pinpoint why some products decay faster. For that purpose, we develop digital twins of the cargo, based on measured air