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Dipartimento di Ingegneria dell'Informazione - Università degli Studi di Padova | Italy | about 1 month ago
on developing high-viscosity dielectric functional inks compatible with high-resolution printing techniques (below 10 micrometers). The deposited materials will be used to create insulating and passivating layers
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charging of water drops through sliding on dielectric surfaces is available at the Soft Matter and Wetting (SMW) group, Department of Applied Physics (School of Science) at Aalto University. This position
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laboratory, please see: http://www.highvoltage.ecs.soton.ac.uk/ You should have a PhD related to Electrical Engineering or Materials Science, ideally with experiences in High Voltage Engineering, or equivalent
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lithography and/or atomic layer deposition and/or gate dielectric characterization methods will be considered favorably. Dutie and Responsibilities Develop, operate, and characterize semiconductor device
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, particularly relevant for the investigation of the dielectric function in anisotropic or angle-dependant systems (e.g. moiré physics). In addition, the researcher will take advantage of other assets of LEM
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undergraduate students. For further details on our laboratory, please see: http://www.highvoltage.ecs.soton.ac.uk/ You should have a PhD related to Electrical Engineering or Materials Science, ideally with
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of chemical gas sensors. Analyze data. Carry out the design of active controls for chemical gas sensors (hydrogen). Where to apply Website https://seuelectronica.upc.edu/en/procedures/call-for-recruitment
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About us The research in Photonics & Nanotechnology Group ( https://www.kcl.ac.uk/research/photonics-nanotechnology ) involves the development and applications of advanced photonic technologies and
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interaction with the human body or tissue, as well as different dielectric materials. Basic knowledge of radio engineering, antennas, wireless communications, and/or radars. Salary The position is full-time
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and their dynamics in real time. This work will shed light on the interplay between ferroelectric order, interlayer excitons, and dielectric environment, revealing how local optical responses correlate