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demand. We hope that you will help us to build the sustainable companies and societies of the future. In line with the green transition and the striving for a sustainable supply of critical raw materials
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build the sustainable companies and societies of the future. In line with the green transition and the striving for a sustainable supply of critical raw materials, our research in mineral processing
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material layers that can be optimized to specific battery chemistries and flow phenomena from the microscale up. The developed technologies will be validated in half-cells and full working batteries
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at cell membranes; Apply machine-learning models trained on simulation data to study how lipid composition and genetic variation influence the conformational and phase properties of membrane-associated
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University of Oslo in Norway since 2019. This international collaborative project has performed lab observations of ice initiation from solid aerosol material, informing the design of microphysical schemes
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environment. We develop knowledge about resilient and sustainable crop production systems to meet the demands for quantity and quality in terms of food, animal feed and bio-based raw materials in a changing
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sustainable crop production systems to meet the demands for quantity and quality in terms of food, animal feed and bio-based raw materials in a changing world. The research focuses on the challenges arising
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observations of ice initiation from solid aerosol material, informing the design of microphysical schemes of models of clouds and climate at Lund. A new climate model is being developed to represent cloud
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predictor of soil carbon storage. Yet, we do not fully understand why soil microbes use soil substrates so inefficiently sometimes and seem to ‘waste’ energy. Our project will probe the mechanisms behind
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. CNC and robotic machining, additive manufacturing, and digital simulation, the research investigates how future aesthetics and methods of production might be shaped in this dynamic interplay between