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structure-performance relationships for catalysts for the hydrogenation of CO2 to higher alcohols (such as ethanol). The role of this specific PhD position will be the development of model catalysts and their
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practice PhD candidates can shape the focus of their thesis and experimental set - up and design according to their interests and talents and within the framework of the overall project objectives. A dynamic
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in solution for up to hours. Now, we leverage the unique abilities of nanopore trapping to detect proteins and their conformations, dynamics, interactions, catalytic mechanisms etc. in real-time
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continuum modeling (finite element modeling, computational fluid dynamics), and proven experience with COMSOL Multiphysics. Knowledge of heat and mass transport processes in heat-sensitive materials and
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research in a dynamic, innovative scientific working environment. Conditions of employment and salary are governed by the personnel and salary regulations of the University of Basel. Application / Contact
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. Experience in GIS and handling large datasets is a plus. A fully-funded PhD position for four years in a dynamic research group with an excellent research infrastructure in the international and
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& Competencies: Familiarity with computational fluid dynamics and ability to design mechanical and microfluidic components Strong expertise in cell culture and molecular biology techniques Experience in
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(finite element modeling, computational fluid dynamics), and proven experience with COMSOL Multiphysics. Knowledge of heat and mass transport processes in heat-sensitive materials and process optimization
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offer a positive research environment in a large, dynamic team at a globally leading academic institution. In our group, you will benefit from frequent interactions with leading researchers from across a
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samples. Job description This project aims to develop novel methods for studying chirality across different length scales and spectral ranges to extract key structural information that goes beyond