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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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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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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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. 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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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
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applications’ with Associate Professor Erin Leitao (University of Auckland) ‘Pickering emulsion-based strategies for compartmentalisation of polymer coacervates’ with Associate Professor Catherine Whitby