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trait variation, with a focus on how biotic interactions—particularly with pollinators—and abiotic factors shape plant reproductive strategies. We conduct our research along altitudinal gradients in
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fluid dynamics and heat transfer to study multiphase flow phenomena. The goal is to integrate theoretical and experimental fluid dynamics with modern computational tools to analyze and predict multiphase
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into scaffold–cell interactions and contribute to the development of clinically relevant bone substitutes. Project goals Goal 1: Develop and optimize biomaterial inks replicating the composition of natural bone
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sequences still remains a challenge. The research group of Emil Marklund investigates how sequence information in biological macromolecules governs recognition, binding, and dynamical structure. This project
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on agentic approaches, where an LLM interacts with visual tools, which may themselves be neural networks. Central challenges include enabling LLMs to reason about visual structures, designing
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dynamic soil moisture map that reflects weather changes. By developing digital dynamic soil moisture maps, decision support systems for route planning can be used to optimize the balance between forest
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essential, as the position involves interaction with healthcare professionals, patients, and research participants, and requires interpreting medical documents in Swedish. Requirements: Extensive experience
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methods in fluid dynamics and heat transfer to study multiphase flow phenomena. The goal is to integrate theoretical and experimental fluid dynamics with modern computational tools to analyze and predict
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to improve the power density and energy efficiency of redox flow batteries (RFB), enabling affordable and durable long-duration energy storage. The approach is to use hierarchical structures, i.e. complex
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to sustainable shipping? Do you want to join a dynamic research team in close collaboration with industry and international partners? Welcome to apply for a doctoral position at Uppsala University. The Department