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holds several world records for power conversion efficiency of flexible CIGS and all-perovskite tandem solar cells. We are looking for a motivated postdoc to develop high-efficiency and stable all
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electrodes, electrochemical flow cell design, and characterization. The project target is to develop an efficient electrochemical cell to adsorb CO2 of different concentrations upon reduction and to release
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implementations of mechanical metamaterials for wave manipulation. Standard metamaterial modelling considers an infinite, defect-free periodic structure, consisting of a single unit cell. In this work we will
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an infinite, defect-free periodic structure, consisting of a single unit cell. In this work we will explore the effect of domain interfaces and defects in such a setting. Practical applications require
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of biomolecules, bacteria and human cells at surfaces for materials-based healthcare solutions. Your tasks The scope of the position is to investigate bacteria-materials interactions, with the final goal
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characterizing, understanding and steering the interaction of particulate materials with human cells or tissues and provide expertise in the interdisciplinary field of particulate materials safety and applications
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of biomolecules, bacteria and human cells at surfaces for materials-based healthcare solutions. Your tasks The potential toxicity of new chemicals and materials, particularly nanoparticles, is a major health and
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photovoltaic and battery technologies. The Laboratory holds the world record for energy conversion efficiency of CIGS solar cells on flexible substrates and is one of the leading centers for CIGS/perovskite
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to capacity degradation and eventual failure in ASSBs. You will design and realize cutting-edge scanning transmission electron microscopy experiments (e.g. aberration-corrected STEM, STEM-DPC, 4D-STEM, EELS and
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to exfoliate graphene nanosheets, and formulating and optimizing slurries for fabricating supercapacitor electrodes. You will be responsible for constructing and evaluating coin and pouch cell supercapacitors