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are especially challenging to represent in numerical models of the atmosphere. Clouds affect the Earth’s radiation budget. Changes in their properties, either due to global warming or aerosol pollution, can
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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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. The research focuses on the development of next-generation thermoelectric materials through advanced nanoscale engineering. The project aims to significantly enhance thermoelectric performance by
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the Division of Scientific Computing and the Division of Materials Theory in the Department of Physics and Astronomy. The Department of Information Technology holds a leading position in both research and
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tissues and disease models, Laboratory of Molecular Materials. Emulate & understand: two faces of one coin. In our team, we strive to understand how tissue-resident cells, extracellular matrices
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quantum physics/chemistry, inorganic and materials chemistry, solid state chemistry or physics. · Good laboratory skills and interest in experimental research. · Programming skills for modeling and data
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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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consists of three pillars: material characterization (mineralogical and particle analyses), unit operations (such as comminution and separation processes) as well as system engineering approaches (modeling
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both experimental development and theoretical modelling. Therefore, it requires the candidate to have a solid background in physics, electronics, and mathematics, along with strong practical experimental
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challenging chemical bonds (N–H, O–H, and C–H) under mild conditions. The project combines plasmonic materials, photoelectrochemistry, and ultrafast laser spectroscopy to investigate and control charge transfer