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of electronic excited states for controlling photochemical processes [3]. This project will build on these developments to capture the switching mechanism of newly-developed proton-driven molecular motors and to
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-biofilm compounds that can be used to treat biofilm-related infections caused by a range of bacterial pathogens. Based on structural data demonstrating how an existing anti-biofilm compound binds to and
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fixation) and belowground carbon storage. A historical perspective, i.e. looking at past changes in soil fertility and carbon storage, can elucidate these processes on timescales that exceed experimental
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. Postdoc position on self-healing strategies for lithium-ion batteries Your tasks Develop lithiation agents to recover lost active lithium during operation of the battery Develop electrochemical protocols
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captured using antigen-specific monoclonal antibodies, and detected and quantified via flow cytometry. The postdoctoral researcher will work closely with an ongoing PhD project at the University of Basel and
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the cerebrospinal fluid and the brain, and how this process can be leveraged therapeutically. The starting date is open.
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, presentations and scientific publications Your profile You have a PhD degree (or equivalent) in Acoustics or Electrical/Mechanical Engineering or Computer Science. Experience with scientific computing in Matlab
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structures, domain walls, and topological defects govern macroscopic functionality. In this project, we will employ cutting-edge synchrotron-based 3D imaging techniques to directly visualize ferroic order at
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hematopoiesis and tissue engineering, while cooperating with a PhD student working on the same program. The project aims at engineering organotypic 3D human bone marrow tissues and apply them as grafts in vivo
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: extremal graph theory, Ramsey theory, probabilistic combinatorics. • Candidates should have (or be near completion of) a PhD in mathematics. • Candidates should have a strong research record in Combinatorics