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materials design with advanced structural, spectroscopic, and electrochemical characterization methods to unravel how ions, charges, and molecular interactions govern doping efficiency and stability. By
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, to thermoelectric and electronic transport measurements. The project also incorporates a theoretical component, including theoretical predictions of material stability and properties, carried out in collaboration
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, flexible materials, bio-based foams, recycled fibers, adaptive textiles, fabrics, padding materials, and composite structures. It will also address the reduction of environmental impact while extending
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doctoral candidate will investigate new strategies to control the electronic properties of organic semiconductors through innovative doping mechanisms. The work will combine tailored molecular and materials
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materials design with advanced structural, spectroscopic, and electrochemical characterization methods to unravel how ions, charges, and molecular interactions govern doping efficiency and stability. By
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on inorganic, organic, polymer and materials synthesis, as well as advanced structural analysis and characterization, with applications spanning nanomaterials, energy storage, and catalysis. Work duties The
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PhD student to work on the next generation nanostructured materials at the interface between supramolecular and bioanalytical chemistry and molecular cell biology. The position is within the Biofilms
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effort supported by the Wallenberg Initiative Materials Science for Sustainability (WISE) and Wallenberg AI, Autonomous Systems and Software Program (WASP), a WASP-WISE NEST. This interdisciplinary setting
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ecosystem services are managed sustainably. In Uppsala, the focus is on wood science and technology, with research and education on wood materials from nano to macro level, wood composites, and wood adhesives
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are affected by chemical composition and crystal structure. For example, it studies how the process parameters and synthesis methods affect material properties. An important area is new magnetic materials based