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MOFs and their hybrid materials. The primary objective is to explore the fundamental structure–property relationships that govern MOF vitrification and liquid-phase behavior, and to develop new MOF-based
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fabricate quantum-dot-based single-photon sources meeting all the requirements of the quantum information applications. Responsibilities and qualifications The main focus of this postdoc project is the
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partners and optimize them for nonlinear quantum processes Collaborate with theory colleagues to refine fiber designs based on experimental feedback Disseminate results at international conferences and in
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-analytic review and to the evaluation of interventions, working closely with the research team to advance knowledge on evidence-based solutions. You will support the development of a research environment
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, focusing on atherosclerotic plaque samples collected from local hospitals in the region. Your primary responsibility will be to develop smooth muscle cell-based assays guided by single-cell spatial
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of staff who are hired on temporary contracts as research assistants, post docs or PhD students. The department’s ambition is to host an internationally leading environment for research and teaching in
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for applicants who have obtained their PhD within the past 4 years, have a good publication record, and have proven their expertise on computational electrodynamics and the theory of light–matter interactions
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and synchrotron-based experiments to study the dynamics of light-induced phase transitions on atomic and nanoscopic length-scales driven by optical and phononic excitation. The focus will be
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cell-specific transgenic strategies coupled with detailed physiological characterization of these models. This will be done using a variety of techniques including metabolic cage studies in mice, a range
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and biological modelling, to biopharma technologies. The department has a scientific staff of about 210 persons, 130 PhD students and a technical/administrative support staff of about 160 persons