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structural diagnostics for the system. The work will be performed in the group of Prof. Christos Likos at the University of Vienna in collaboration with the experimental group of Dr. Emmanuel Stiakakis
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stress and its therapeutic potential, utilizing in vitro cell-based and in vivo mouse models. The research incorporates advanced molecular and biochemical techniques to investigate these pathways. Please
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). The project aims to create a synthetic population patients using Large Language Models (LLMs). These AI-generated patient profiles will be employed to develop and test interventions designed to increase vaccine
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2D materials such as transition metal dichacegonides. This includes the development of new advanced experimental tools involving optical spectroscopy (IR, Raman and PL) as well as electron spectroscopy
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leveraging advanced computer vision and deep learning-based pose estimation from football match footage to analyze pre-injury biomechanical patterns and joint load dynamics. The research aims to create
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establishing alternative frameworks for biomedical research, development, commercialization, and the deployment of new therapies – including novel types of antibiotic drugs as well as advanced biomedicines
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, and advancing quantum verification theory. Our team is part of the Quantum Optics, Quantum Nanophysics, and Quantum Information group of the Faculty of Physics. We are a member of the Vienna Center