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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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blade aerodynamics, gust interactions, and fluid-structure interactions. The research focuses on unfolding the origin and development of unsteady flow separation and vortex formation. The lab has built a
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, interactions, catalytic mechanisms etc. in real-time. Building on our published and unpublished work, the successful candidate will advance nanopore trapping in new directions using solid-state and biological
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defiance by centering on visual analysis grounds aspirational urbanism, rescaling the object of urban theory towards everyday micro-practices.
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opportunity to learn, develop and apply a range of cutting-edge modeling and computational techniques. You will work in an interdisciplinary, cutting-edge, fast-paced research environment, interact with
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. An exciting and fully funded PhD project at the University of Basel, Switzerland. Embedding in a productive, interdisciplinary group with an open and interactive lab culture. State-of-the-art research
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order to investigate economical and supply systems and the interaction between lakeshore settlements and their environment. The candidate will collaborate closely with the other disciplines involved in
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of Environmental Sciences (DUW). Scientists at DUW investigate the complex interactions between the biosphere, geosphere, hydrosphere, atmosphere and anthroposphere. Understanding the current state
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have the pleasure of interacting with other lab members and other scientists in the Department of Biomedicine. Basic research requires thought, patience, attention to detail, a significant time and
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We offer you We offer a full-funded PhD position in a highly interactive, multidisciplinary, and international research group within the Biozentrum. Our group spans expertise in physics, molecular