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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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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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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
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through the integration of novel materials and more sustainable techniques. The research will examine design strategies for achieving comfort through diverse materials, including upholstery, springs
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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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the analogue and the digital. A central focus lies in the meeting of materials – how different wood species, biocomposites, and hybrid materials react and interact when processed with both traditional and