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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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, 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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. The research focuses on the development of next-generation thermoelectric materials through advanced nanoscale engineering. The project aims to significantly enhance thermoelectric performance by
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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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on CIGS, may degrade or loose efficiency. This includes investigating how the materials’ composition, their physical structure, interfaces between layers and interactions with the environment affect their
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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