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Max Planck Institute for the Structure and Dynamics of Matter, Hamburg | Hamburg, Hamburg | Germany | about 2 hours ago
experimental efforts, the project will uncover new physical mechanisms and lay the foundational principles—both qualitative and quantitative—for the rational design of strongly coupled molecular systems
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infarction, stroke and cancer. We aim to dissect mechanisms, which act on lymphatic vessels and immune cells and impact on development and resolution of inflammation. A key unknown during the course
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on Earth is a laboratory that has operated for billions of years, producing remarkably diverse, complex, and robust biological systems; however, significant challenges persist in understanding
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approaches to data analysis, atomistic details of thermal catalysis and electrochemical reactions at gas/solid and liquid/solid interfaces are revealed. In particular, structure-reactivity correlations
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for multi-scale and multi-physics modeling of SOC stacks/systems (Solid Oxide Cells) and contribution to optimization of existing model libraries for various application scenarios Validation of the developed
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processes Parameterize key biological and biogeochemical mechanisms for implementation in large-scale ocean carbon cycle models Process and analyze gel trap samples to assess particle composition, size
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well as gaining an in-depth understanding of the operational chemistry and physics in gas sensing. The most widely used solid-state electrolytes in PEGS are O2--ion conductors including yttria-stabilized zirconia
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(MUCCnet: atmosphere.ei.tum.de ) Optimization of an urban sensor network configuration for greenhouse gas and air pollutant measurements using mathematical and physical assessments Analysis of ground-based