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MEMS, nanotechnology, control engineering, and robotics. This current postdoctoral project is a collaborative project between the Discrete Technology and Production Automation (DTPA) group, hosting Dr
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engineering science research and covers a broad area of mechanical engineering, electronic materials and MEMS, nanotechnology, control engineering, and robotics. This current postdoctoral project is a collaborative
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mechanical engineering, electronic materials and MEMS, nanotechnology, control engineering, and robotics. This current postdoctoral project is a collaborative project between the Discrete Technology and
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, pumps and transporters. Living cells maintain chemical gradients and electrical potential differences across their membranes using proteins that represent the majority of all current drug targets
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carried out by integral membrane protein channels, receptors, pumps and transporters. Living cells maintain chemical gradients and electrical potential differences across their membranes using proteins
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of molecules and information across these membranes is carried out by integral membrane protein channels, receptors, pumps and transporters. Living cells maintain chemical gradients and electrical potential
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to identify trends in the data. Applicants should have a PhD in physics, materials science, electrical engineering, or a related field. A deep understanding of device physics, numerical modeling, and computer
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lists. The Faculty of Science and Engineering (FSE) is the largest faculty within the University. We offer first-rate education and research in a wide range of science and engineering disciplines, from