86 structures-"https:" "https:" "https:" "https:" "https:" Postdoctoral research jobs in Sweden
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diodes (LEDs). A critical challenge in this field pertains to understanding the nature and role of atomic-scale (local) structure and dynamics, which underlie the photophysical properties
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freedoms and constraints propagate through the system architecture, influencing thermal behavior, structural integrity, reliability, cost, and environmental impact across the life cycle. The position will
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these analysis methods to highly informative multimodal microscopy data and develop techniques to integrate correlated structural and molecular analysis into the natural 3D tissue space. This integration will
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– structures that regulate the selective entry of metal species into nanocompartments; and (4) inert surfaces – outer assemblies that remain stable in supersaturated solutions. Performing high-throughput
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) interfaces – templates and catalytic motifs that direct the controlled formation of target semiconductor materials within confined spaces; (3) pores – structures that regulate the selective entry of metal
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– such as taking statutory leave – then these may be taken into consideration. We are looking for someone with very strong knowledge of DFT-based electronic structure and lattice dynamics methods (DFPT and/or
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very strong knowledge of DFT-based electronic structure and lattice dynamics methods (DFPT and/or AIMD-derived phonons), as well as experience in scientific programming and HPC environments. You are
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engineering. The research at the division of Materials Physics is directed towards fundamental molecular level understanding of structure and dynamics of materials in relation to macroscopic functionality. A
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. This includes questions about stability, critical in the design of plasma confinement devices. Modus operandi in the project is to make progress on these difficult question via structure-preserving numerical
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the fundamental links between molecular-level structure and dynamics and the macroscopic properties of materials. Our research focuses on energy-related materials for next-generation batteries, with special