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physiology, neuroscience, animal behavior, computational methods, etc.) is a plus. Candidates from non-neuroscience fields but with a keen interest in understanding the brain (e.g., physics, artificial
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morphogenesis and mechanical properties of the blastoids. Advanced Experimental Methods: Utilize state-of-the-art techniques, including rheology, Atomic Force Microscopy (AFM)-based nanomechanical probing, and
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) salary will be confirmed upon appointment and is dependent on local tax regulations and on the country correction factor (to allow for the difference in cost of living in different EU Member States). The
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the criteria of KU Leuven (more information available here ). Relevant experience (e.g., molecular biology, cellular physiology, neuroscience, animal behavior, computational methods, etc.) is a plus. Candidates
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passionate, fun and international group of scientists from a variety of research disciplines, that work together on developing advanced novel optical microscopy methods to solve timely questions in
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explores how artificial intelligence can make industrial control systems safer and more efficient. It focuses on combining the reliability of classical control methods with the adaptability of RL. The goal
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healthcare for FOG; identify technical requirements for the development of just FMs-based solutions for FOG. Develop a data collection method embedding wearable IMU sensors for monitoring FOG in everyday life
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role in membrane remodeling. It also aims to deepen the mechanistic understanding of solute transport in ion channels and transporters of medical relevance. We apply state of the art methods
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to neurodegenerative diseases of the central and peripheral nervous system, with an emphasis on understanding the genetic etiology and developing diagnostics and treatment methods for these diseases. Approaches range
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~20 researchers with expertise in structural biology, biophysics, and membrane protein biology. The Martens group is internationally recognized for mass-spectrometry–based methods to study membrane