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divisions and touches on everything from the incredibly small to the extremely large in, for example, energy supply, climate development, new materials, and the universe. This whole spectrum of research is
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conduct research within functional porous materials for energy and environmental applications, nano biomaterials, sustainable electrical energy storage and energy transformations, functionalization
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of Nanotechnology and Functional Materials is part of the Department of Materials Science and Engineering, Ångström Laboratory. At the division, we conduct research within functional porous materials for energy and
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for the future in the conversion to sustainable societies. The Department of Electrical Engineering conducts successful research and education in these areas - renewable energy sources, electric vehicles
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of isoprene by photosynthetic cyanobacteria directly from CO2 as carbon source and solar light as energy source, and the second step is the photochemical dimerization of isoprene into monoterpenoids, which
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interested in working in the research project "Harvesting Energy from Natural and Anthropogenic Vibrations"., with the support of competent and friendly colleagues in an international environment? Are you
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pharmaceutical arena. With frontline research, first-rate education and extensive collaborations we constitute an important driving force in the development of our academic field. IFF has approximately 150
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of the Department of Materials Science and Engineering, Ångström Laboratory. At the division, we do both basic and application-oriented research that is related to energy and environmental aspects as
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students and 200 postdocs will be part of the Research School. The DDLS program has four strategic areas: cell and molecular biology, evolution and biodiversity, precision medicine and diagnostics
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programs and master's programs. More information is available on our website : (https://kemi.uu.se/angstrom/?languageId=1 ). Future grid energy storage technologies must rely on abundant materials sourced