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Motivation: Soft and flexible materials (e.g. polymers, hydrogels) have revolutionised many areas of science and technology ranging from flexible electronics to soft robotics. Scientists now predict
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systems to living tissues, from liquid crystals to foams, including polymers and granular systems. These physical studies are at the interface with physical chemistry and biology. The research will be
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, functioning similarly to an artificial SEI. The coating materials will include inorganic ionic substances and polymers. Electrochemical comparison and durability assessments will follow. Interfacial analysis
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in our laboratory (see Nielsen et al. 2024, Nature). We also strive for implementing nano discs from polymers or MSPs to extract or stabilize hDAT. The main task is to solve multiple structures of hDAT
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Your Job: You will join the "Electrocatalytic Interface Engineering" department, led by Prof. Dr.-Ing. Simon Thiele, and the "Membrane Polymer Synthesis" (MPS) team by Dr. Jochen Kerres
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: Computational Modelling: Employing simulation tools (e.g., GEANT4, light transport) to explore novel metamaterial designs, predict performance, and optimise key parameters such as timing resolution, light yield
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. The resulting product gas can be reacted into new mono- and polymers of the same quality as fossil-based plastics, and a circular economy is created. The Ph.D. position is part of the HighRec project, and the
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Research Groups at the Faculty of Engineering, which conduct cutting-edge research into electric propulsion systems, composite materials, and advanced simulation technologies. Vision We are seeking a highly
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into electric propulsion systems, composite materials, and advanced simulation technologies. Vision We are seeking a highly motivated PhD student to join our interdisciplinary team to help address critical
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high mRNA loading efficiency and uniform particle size. Current lipid- and polymer-based systems offer distinct advantages, but integrating lessons from both may help develop more effective next