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. International young and experienced scientists from various disciplines develop interactive materials based on the principles of nature. It is a location at which people with different talents, experiences and
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of length scales from small molecular units to long chained polymers, with even simple substances such as nitrogen or methane exhibiting complex phase behaviour. Methods to map this behaviour are well
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. The central scientific question of the TIES project is how to achieve selective ion separation based on differences in diffusion coefficients within electromembrane processes. The research will focus
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, topological excitations, conformational statistics of macromolecules such as polymers and proteins (folding, aggregation, adsorption, confinement effects), active polymeric systems, non-equilibrium relaxation
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molecular hosts that can bind guest molecules or ions within their cavities(1). The confined microenvironment of these cavities can differ significantly from bulk solution and have interesting effects
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, material synthesis, catalysis, analysis and characterisation, battery cell, recycling, sustainability and life cycle analysis. Theory and Modelling Theoretical work is conducted on very different length- and
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electrospinner in which two different polymers (i.e. anion and cation exchange polymer) and a catalyst can be electrospun together simultaneously, thus creating a fully intermingled bipolar junction in one step
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different polymerization processes, e.g. free radical and cationic polymerization. In this configuration you can cure two different polymers in principle independently and generate spacial property variation
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an advantage Experimental experience in membrane materials, polymer science, nanocomposites, or electrochemical systems Experience with battery materials, separators, or electrochemical characterization
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AI techniques for damage analysis in advanced composite materials due to high velocity impacts - PhD
carbon fibre-reinforced polymers (CFRPs), are increasingly adopted in structural applications due to their superior strength-to-weight ratios and fatigue resistance. However, their layered, anisotropic