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which it is found. This includes over 300 publicly accessible genomes as well as several dozen long-read assemblies from the lab's internal collection. This position aims to synthesise all available
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environment for high-impact translational research with unparalleled access to academic and industrial expertise. Project background Advancing the Frontiers of Bioelectronics and Synthetic Biology Our group
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numerous major pharmaceutical companies, the D-BSSE offers a unique environment for high-impact translational research with unparalleled access to academic and industrial expertise. Project background
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You will have access to teaching assistants, research and travel funding, an international network of collaborators, and the wide variety of ETH career development resources The working language is
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collaborative research environment Freedom to develop independent research directions Access to world-class infrastructure at ETH Zurich and PSI Opportunities for interdisciplinary and international
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. The opportunity to work with the world-first imaging device tailored to study drift in riverine ecosystems. Access to an extensive network within the field of Ecohydraulics. Scientific independence, visibility and
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(100%) for up to 3 years Environment: A collaborative, international team at ETH Zurich's Basel campus with access to state-of-the-art HD-MEA technology and microscopy facilities Collaboration: Close
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depending on performance and funding. A multifaceted and intellectually stimulating role at a world-class university, with a highly competitive salary and excellent working conditions. Access to state
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support for academic profiling and grant applications. Support programmes and networks, such as mentoring and access to institutional and interdisciplinary networks. A collaborative team culture, with close