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Field
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microelectronics: In this project, you would develop advanced low-power mixed-signal (analog + digital) circuitry on CMOS chips which will drive our custom implants Bionic Vision implantable probes: In this project
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and stability. The outcomes are expected to develop energy-efficient optical switches for next-generation photonic circuits and quantum technologies, offering transformative capabilities in high-speed
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shift from microwaves to mm-waves (ca. 30 – 300 GHz) or even Terahertz frequencies (ca. 0.3 – 1 THz). Current on-chip interconnect technology relies on printed circuit board (PCB), which is not suitable
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the mm scale. At lower frequencies it is common to use printed circuit antennas, which can be electronically switched between different radiation patterns and polarizations. Using these standard beam
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provides access to advanced CAD tools, integrated circuit prototyping, and technical training, equipping students with cutting-edge skills. To support hands-on experimentation and applied research, the IVHM
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electronic design, AI-driven system resilience, and intelligent hardware security. Through the EUROPRACTICE partnership, the IVHM Centre provides access to advanced CAD tools, integrated circuit prototyping
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circuit, and sports halls. Personal Development: Access to courses run by our Organisational Development & Professional Learning team. Access to on-site childcare, shopping discounts and travel schemes
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tools, integrated circuit prototyping, and technical training, equipping students with cutting-edge skills. To support hands-on experimentation and applied research, the IVHM Centre offers access to a
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-driven system resilience, and intelligent hardware security. Through the EUROPRACTICE partnership, the IVHM Centre provides access to advanced CAD tools, integrated circuit prototyping, and technical
-
chronic monitoring and facilitate seamless integration into dynamic neuromodulation systems for closed-loop therapeutic interventions. By leveraging graphene’s exceptional electrochemical properties with