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Field
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, such as learning analytics (from e.g. click-stream data, eye tracking, screen capture etc.), surveys, or other large-scale data analysis. However, we also welcome qualitative or mixed-method approaches
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encourage research that combines socio-technical perspectives with quantitative methods, such as learning analytics (from e.g. click-stream data, eye tracking, screen capture etc.), surveys, or other large
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of metamaterials, nanofabrication in a cleanroom environment, optical characterization, construction/modification of optical characterization tools, and test stations for fabricated devices. In
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fluorescence, SAXS and SANS measurements of polymers interacting with lipid vesicles. Other techniques such as DLS, SAXS, surface pressure, QCM-D and optical ellipsometry will provide additional information
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mechanisms in organic semiconductors through chemical, electrochemical, and catalytic approaches; performing optical, electrical, and spectroscopic measurements to study charge transport and doping effects
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optical tweezers to do cavity QED with nanophotonic cavities and developing on-chip optomechanical systems with ultracoherent mechanical resonators. You would engage with either or both of these projects
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us, research and education are conducted with an eye towards the future. Our proximity to the business world, both locally and globally, gives us a wide reach and the ability to create change
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solution studies using fluorescence, SAXS and SANS measurements of polymers interacting with lipid vesicles. Other techniques such as DLS, SAXS, surface pressure, QCM-D and optical ellipsometry will provide
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storage, and optics. From AI modelling of materials and biological complexity to the design of multifunctional micro- and nano systems, we combine theory, fabrication, and innovation to tackle challenges in
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of Electrical Engineering research and education are performed in the areas of Communications, Antennas and Optical Networks, Systems and Control, Signal processing and Biomedical engineering, and Electric Power