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Enable ultrasonic welding of composites through data-driven approaches We aim to advance the integration and joining of thermoplastics composites with a concerted effort of several researchers
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prediction, global health resilience, and Earth system services for end users. Within the BSC-ES, the Atmospheric Composition Group develops a modelling capability to combine atmospheric dynamical and chemical
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will be investigated: (1) mantle and crustal rheological properties, (2) potential source rock compositions of any melting processes taking place, and (3) ambient mantle temperature and lithospheric
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involve both subduction zone and intraplate settings. In particular, the following parameters will be investigated: (1) mantle and crustal rheological properties, (2) potential source rock compositions
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, the copper-silver-bismuth iodosulphates (CABIS) by designing new strategies for a controlled synthesis of tailored chemical composition to finely tune the material optoelectronic properties. This will be
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-based approaches (such as DFT and AIMD), thermodynamics and kinetics as well as finite element methods will be applied to perform a rapid and reliable screening of various compositions in the search
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for a controlled synthesis of tailored chemical composition to finely tune the material optoelectronic properties. This will be achieved by designing new solution-based synthesis approaches for fine
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+,…). For the electrolyte composition, the effect of the cation additives or hydrophobic organic co-solvents on the interface structuring and electrochemical stability window will be studied. These strategies are current
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(such as DFT and AIMD), thermodynamics and kinetics as well as finite element methods will be applied to perform a rapid and reliable screening of various compositions in the search for optimal ones, so that
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with research and education on wood materials from nano to macro level, wood composites and wood adhesives, and with accredited testing of wood products and treatments for the market. More info about the