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to large-scale energy storage systems. Despite their widespread use, these batteries are subject to complex and interconnected degradation processes that can significantly impact performance and lifetime
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interdisciplinary project exploring how maternal immune activation affects fetal development through immune and metabolic pathways. The position is part of a collaboration between the Sandelin group (University
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expected to work with an international team, establish experimental designs, and provide biological insight into the mechanisms of chromatin recognition and repair. The postdoc is expected to drive
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facilities to conduct world-leading fundamental and applied research within communication, networks, control systems, AI, sound, cyber security, and robotics. The department plays an active role in
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. The announced position is part of this venture, and the successful candidate will participate in the joint effort to achieve this goal. The position is a four-year full-time postdoc position offered for the most
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attention and rhythmic sampling. The position is available for up to 48 months and part of a project supported by the Lundbeck Foundation led by Professor Søren Krogh Andersen. The starting date is March 1
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attention and color vision. The position is available for up to 30 months and part of a project supported by the Independent Research Fund Denmark led by Professor Søren Krogh Andersen. The starting date is
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1, 2026 (or as soon as possible thereafter) for 12 months initially, with the possibility of extension up to three years based on performance. The successful candidate will investigate gene regulatory
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models of complex physical systems starting from data, ranging from robotic systems to traffic and turbulent flows. We are implementing these methods in high-performance open-source libraries to make them
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the metabolism of gas fermenting microorganisms, with a focus on C1 metabolism. You will work independently on the development of high impact research projects. You will use state of the art equipment