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world-class research institution supported by the Howard Hughes Medical Institute. For more information about Open Chemistry and the Lavis Lab, please visit https://www.janelia.org/lab/lavis-lab About the
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applications such as energy-storage capacitors and electrostrictive actuators¹,². These relaxor materials are characterized by the presence of polar nanoregions (PNRs), in which electric dipoles are correlated
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Lavis Lab, please visit https://www.janelia.org/lab/lavis-lab About the role: In this role, you will support the vision of Open Chemistry by designing and synthesizing fluorescent dyes and other small
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from KTH. The research environment includes, among others, three PhD students, two at KTH and one at Karlstad University and brings together solid mechanics and materials science in a dynamic research
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the underlying principles. For us, it is equally important to study the impact of materials on biological processes as well as the impact of biological processes on materials. Our ambition is to foster a dynamic
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characterize their electromagnetic performance. To validate the achieved tuning range and functional performance in laboratory measurements against modeling and simulation results. This position is part of
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investigations include material characterization, studies of fresh, young, and hardened concrete (including hydration), determination of the size distribution of air/macropores, capillary pores, and gel pores
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knowledge in General and Inorganic Chemistry along with an experience in the preparation/characterization of advanced inorganic materials and advanced oxidation processes (AOPs). The PhD. candidate must have
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for the materiality of the built environment in defined regions, based on MFA and supported by BIM, GIS, IoT and AI technologies. Map existing anthropogenic material stocks and their dynamics and simulate circularity
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. These studies aim at addressing fundamental questions in ultrafast magnetism, including spin and angular-momentum dynamics in complex magnetic materials and metal/semiconductor heterostructures. In parallel