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PFAS, it is crucial to understand and quantify their interactions with these particles to better predict their environmental behavior. In a project funded by the German Research Foundation (DFG
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at obtaining further academic qualification (usually PhD). Research area: Systems of interacting particles are ubiquitous in natural and social sciences. Typically, they comprise many agents that, through intra
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physiological processes of plant growth, development, reproduction and interaction with other organisms. In a plant’s life, interactions occur at multiple levels: among others, between its plastids and the
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. Colloid-borne transport processes can govern the migration behavior of radionuclides. In this respect, the kinetics of their interaction with both the colloids and the solid rock is of critical importance
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project involves interdisciplinary research at the interface of computer science and mathematics, with a focus on bivariate molecular machine learning for modeling molecular interactions and properties
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. The project also explores human or automated UAM management interaction with multiple UAVs, providing an immersive spatial interface (XR: AR/VR) to plan missions, monitor operations, and manage UAV swarms
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of radionuclides on clay mineral surfaces using DFT Kinetic Monte Carlo simulations with activation energy barriers as input to simulate large-scale interactions of nuclides with surfaces Preparation and
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of pathogens and their host interactions. The Sondermann lab [ Link ] is interested in deciphering the molecular processes that determine bacterial interactions in microbial communities. This PhD project