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facilities in close collaboration with the Optoelectronics Research Centre. If you wish to discuss any details of the project informally, please contact: Dr. Sajjad Taravati, SEMS research group, Email
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to integrate active and passive optoelectronic devices on a Si wafer is an essential paradigm in the quest for the development of low-cost and energy-efficient data communication, imaging, and quantum sensing
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the Optoelectronic Materials and Device Spectroscopy group (https://www.stranks.oe.phy.cam.ac.uk/ ) at the University of Cambridge, led by Professor Sam Stranks. The group is an inclusive and diverse
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Funding providers: EPSRC Subject areas: Photodetectors, Semiconductors, Electronics, Optoelectronics Project start date: 1 July 2024 (Enrolment open from mid-June) Aligned programme of study: PhD in
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detectors that allow the use of lower operational X-ray doses to decrease radiation-related health risks. Metal halide perovskites are semiconductor materials with outstanding optoelectronic properties
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the development of molecular systems with fluorescent or charge-transport properties for applications such as in optoelectronics. Particular attention is paid to controlling the structural organization
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. You will be based at the Optoelectronics Research Centre, being part of a cohort of 12 PhD students across a number of UK institutions. The Skills and Training Hub will run online and face-to-face
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, computers and networks. The Optoelectronics Research Centre is a world-leader in design and manufacturing of these novel fibres (led by Prof. F. Poletti, a co-supervisor of this project). The project is
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Chemical Technology) Synthesis and characterisation of organic materials with possible applications in organic electronics (PV, batteries) Production of simple laboratory components and optoelectronic
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optoelectronic simulation, simulation for electromagnetic compatibility and power quality and experimental EMC testing. The Power Electronics, Machines and Control (PEMC) Research Group is internationally renowned