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Skills: Microfluidics: Strong theoretical and practical understanding of fluid dynamics, fluidic circuit design, and numerical simulation (e.g., COMSOL Multiphysics or ANSYS) and experience in designing
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to emitters. The EPSE group at ETH Zurich, led by Prof. Dr. André Bardow, is dedicated to advancing sustainable energy and chemical process systems. Our research spans from the molecular level to the scale
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process Applications will be reviewed on a rolling basis until the position is filled. Additional comments Project Overview Cells sense, integrate, and respond to dynamic stimuli through complex signaling
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systems and cardiovascular devices. The research group operates a well-equipped cardiovascular flow lab and a computational lab for the numerical simulation of biomedical flows. Requirements We are looking
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simulation of biomedical flows. Requirements We are looking for a candidate who meets the following requirements: You are creative and ambitious, hard-working, and persistent. You have an MSc degree in
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how well reported dynamics of decline in rare plant species align with inferred trajectories of effective population size. Conversely, the project will also address whether habitat and species
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of hip implants, as it can lead to particle-induced inflammation and implant loosening. Understanding the mechanisms and patterns of wear at the microscopic and molecular levels is therefore critical
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reformat data in databases. Use the simulation-based approach to (1) better understand and steer refrigeration processes or packaging design by optimizing for product quality loss and waste, and (2) connect
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agreement. We are providing a supportive environment that fosters professional and personal growth . You will join a dynamic, motivated and interdisciplinary team of researchers with expertise in chemistry
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and analyze mechanisms of action. Your profile A strong background in immuno-oncology, cellular therapy, molecular biology, or a related field. Prerequisite: A valid LTK1 certification (or similar