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are recruiting a highly motivated postdoctoral researcher to lead the first implementation of Deep-UV Raman spectroscopy for real-time polymer identification. This project addresses a critical gap: no established
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Environmental Engineering focusing on different research fields such as catalysis, separation, energy generation, conversion and storage, and organic optoelectronics intelligent and advanced polymers and
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on comprehensive rheological characterisation, including the determination of viscoelastic properties through appropriate testing and modelling; Support in polymer characterisation using techniques such as (not
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Mobility and Power Center: https://ati.ua.edu/tag/alabama-mobility-and-power-center/ ; Alabama Materials Institute: https://ami.ua.edu/ ; UA Polymers and Soft Materials Research Center: https://poly
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Mobility and Power Center: https://ati.ua.edu/tag/alabama-mobility-and-power-center/ ; Alabama Materials Institute: https://ami.ua.edu/ ; UA Polymers and Soft Materials Research Center: https://poly
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semesters Beginning Winter semester Application deadline Please visit https://www.uni-muenster.de/Baccara/application/index.html . Tuition fees per semester in EUR None Combined Master's degree / PhD
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Institute: https://awi.ua.edu/ ; the Alabama Mobility and Power Center: https://ati.ua.edu/tag/alabama-mobility-and-power-center/ ; Alabama Materials Institute: https://ami.ua.edu/ ; UA Polymers and Soft
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is to validate original theoretical models of contact mechanics that take into account the effects of surface tension, adhesion, and viscoelasticity on nanoindentation measurements. These measurements
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, are needed. Specific expertise can focus on modelling of e.g., polymer, biomolecular systems, or colloidal systems. We work at both atomistic and coarse-grained modelling levels and appreciate multiscale
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exploit mathematical approaches, tools, and technologies at the interface with chemistry on one of the following themes: - modeling of quantum effects to gain a detailed understanding of chemical reactivity