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Max Planck Institute of Biophysics, Frankfurt am Main | Frankfurt am Main, Hessen | Germany | about 2 months ago
computational methods to investigate the structure, dynamics and function of cellular systems at the molecular scale. It consists of four scientific departments, multiple research groups and scientific core
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] Subject Areas: Mathematics in the sciences: Applied Analysis; Geometry, Groups, and Dynamics; Nonlinear Algebra; Pattern Formation, Energy Landscapes, and Scaling Laws Appl Deadline: 2025/12/01 11:59PM
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‘Integrated Structural Dynamics’ led by Dr. Sigrid Milles. The successful candidate will study the conformational dynamics and interactions of intrinsically disordered proteins involved in clathrin mediated
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. We advance the understanding of dynamic processes to address global challenges, from mitigating the impacts of natural hazards and sustaining our habitat amid global change to responsibly managing
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. We advance the understanding of dynamic processes to address global challenges, from mitigating the impacts of natural hazards and sustaining our habitat amid global change to responsibly managing
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/Qualifications PhD in chemical engineering, process engineering or a related field Experience in working with catalytic processes Experience in the construction of lab-scale miniplants, including reactor design
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addition, the GLP-1 analog semaglutide will be administered to evaluate its therapeutic effects on metabolic and structural changes. The project will focus on the following areas: Investigation of structural
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to unravel signatures of non-equilibrium dynamics and phase transitions in the transient electronic structure. We have a strong background and reputation in state-selective and spin-sensitive time- and angle
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to unravel signatures of non-equilibrium dynamics and phase transitions in the transient electronic structure. We have a strong background and reputation in state-selective and spin-sensitive time- and angle
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. The position is available from 1st December 2025, but starting time is flexible. Focus of the project is the investigation of the link between the dynamics of synaptic structural plasticity and the probability