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new Centre of Integrative Semiconductor Materials (CISM) cleanroom. Funding Comment This scholarship covers the full cost of tuition fees. An annual stipend at UKRI rate (currently £20,780 for 2025/26
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photolithography, plasma etching and additive manufacturing in the cleanroom facilities at DTU Nanolab. Furthermore, you will characterize the carbon materials and evaluate the electrochemical properties of the 3D
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within a state-of-the-art cleanroom, experimental optical systems and data analysis. This research is ideally suited to candidates with interests in photonics, metamaterials, ultrafast optics
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manages a cleanroom facility designed for fabrication and characterization of semiconductors. The cleanroom is a 6,000 square-feet facility with 2,500 square-feet of class-100 and class-1000 space. Major
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well as their cleanroom fabrication by silicon micromachining will be investigated. The main challenges are (1) the design and modelling of new sensor topologies, (2) development of the MEMS fabrication processes, (3
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engineering Willingness to work in laboratory and cleanroom environments Ideally, initial experience in a technical or scientific environment (e.g. cleanroom, laboratory) Knowledge of solid state physics and/or
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in cleanroom Electric and thermoelectric characterization of devices at cryogenic temperatures and in the presence of large magnetic fields Presenting results at international conferences Dissemination
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to semiconductor research and manufacturing innovation. CISM provides access to cutting-edge cleanroom fabrication, advanced metrology, and process development tools, enabling the study and optimisation
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tasks Further development of the sensor based on aerosol separation technique and field effect transistor Use aerosol measurement technique, electron-beam lithography and cleanroom equipmen Design of
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in the KU Leuven cleanroom and integrate MOF materials as functional coatings into these sensors. All aspects of sensor fabrication and evaluation will be explored, including methods for thin film