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Max Planck Institute for the Structure and Dynamics of Matter, Hamburg | Hamburg, Hamburg | Germany | about 1 month ago
interaction for chemistry and materials. Overall, we aim to unravel and apply fundamental physical principles to create and control novel states of matter with light. For the ERC Synergy project “Unravelling
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on the cutting-edge field of Human-Centered AI Technologies using advanced Generative AI and novel interaction technologies such as VR/AR and Eye Tracking. PostDoc and PhD Positions in Human-Centered AI
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-responsive proteins to develop genetic switches and circuits in therapeutically relevant bacteria. Your tasks: Use computational tools to design protein structures with desired properties Produce
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-design laboratory or field experiments to test project hypotheses about the connection between soil food webs and soil functioning. Your Tasks Co-designing and implementing laboratory and field experiments
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Mantras" project website. This involves mapping and archiving sonic and visual representations of mantras across global Southern Asia, contributing to the design process, refining content, and regularly
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Doctorates at the University of Tübingen Funding and support for junior researchers Partner Institutions Innovation Back Technology Transfer Office Startup Center Industry Liaison Office Support Back Research
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self-correction capabilities of the developing nervous system, focusing on plasticity in cell behavior and cell-cell interactions during regrowth and repair of tissue organization. The work will be
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for battery materials, we seek a Postdoc (F/M/D) for lithium-ion battery design in a digitalization project Desired starting date: July 1st , 2025(or sooner), salary level E13 TV-L 100%, contract limited to two
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, with the ability to effectively interact with a broad scientific audience Willingness to contribute to grant writing, project proposals, and to represent the team at scientific meetings and conferences
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their operating principles and, therefore, their ability to be designed, manipulated, and produced. Mesoscale organization is integral in bridging scales between microscopic interactions and macroscopic material