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Postdoctoral Research Associate, Materials Science and Engineering Posting Number req24171 Department Materials Science & Engr Department Website Link https://mse.engineering.arizona.edu/ Location Main Campus
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graphene-based field effect transistor sensors with biological receptors for infection biomarkers, and optimize this technology for diagnosing infections in the wound settings. As a postdoctoral researcher
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electron mobility transistors and graphene, but also to large band gap and low symmetry semiconductors such as Ga2O3. These materials and components lay the foundation for the next generation of high
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advanced power semiconductor devices such as wide-bandgap transistors and diodes; novel converter topologies; intelligent control; and integration of AI into secure power management systems. Micro/Nano
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been applied to two-dimensional semiconductor systems such as nitride-based high electron mobility transistors and graphene, but also to large band gap and low symmetry semiconductors such as Ga2O3
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limitations in materials, devices concepts and processing of transistors based on III-nitride semiconductors. About us The Microwave Electronics Laboratory (MEL) at the Department of Microtechnology and
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microfluidic system for the detection of various relevant analytes in saliva. Sensors will be made of electrochemical cells and transistors on soft and flexible substrates. Their fabrication will be processed
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equivalent. Skills Essential: C1 Knowledge of electronic semiconductor device operation and characterisation. In particular, in-depth understanding of transistor operation and electrical characterisation
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architectures are required, such as those inspired by the organization of the human brain that utilize novel materials. Ferroelectric Field-Effect Transistors (FeFETs) exemplify the latter, regarded as a pivotal
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Tecnologia, Italy. One research project available on the topic: ‘Developing advanced printed organic transistors architectures exploiting spatially controlled doping ’ . Prof Simone Fabiano at Linköping