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of Basel at 6 different locations. Be part of our future! High-throughput drug screening has traditionally relied on 2D cell culture systems, which often fail to capture the structural and metabolic
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participation, exchange, and mutual understanding. We create structures that enable the compatibility of work and other areas of life, such as care work, and continuously make efforts to reduce barriers. Do you
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of Prof. Tomasz Smoleński at the Department of Physics, University of Basel, Switzerland (https://smolenski-lab.com ), is looking for a highly-motivated and self-driven PhD candidate. The group utilizes
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, clustering, latent-state models, and unsupervised learning to identify high-order structure in neural and molecular data. • Conduct statistical modeling of temporal trajectories and population dynamics across
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Zurich, to study the mechanical retention of wood and sediment at racks, nets, and guiding structures, and the functioning of the complete sediment trap system under various flood scenarios. An important
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on background and expertise, the successful candidates will contribute to some or all of the following activities: Study the structure and dynamics of wind turbine and wind farm flows under controlled conditions
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construction, resilient urban water systems, renewable energy, etc.) be scaled up and mainstreamed to reach their full transformative potential? To tackle this question, we are establishing the Climate Solutions
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and develop strong links with the established pediatricians and other non-hospital pediatric structures. The ability to lead high-level research in the field of pediatrics is required, as well as proven
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. These materials-ranging from structural to water-soluble polymers-are designed for complete microbial metabolic utilization in their intended receiving environments (e.g., aquatic systems, soils, wastewater). By
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approaches to satellite data. We expect this project to open new perspectives for understanding tipping behaviour in the climate system, leveraging the crucial interplay between topological network structures