EPSRC fully funded project 3.5 years starting January/April 2025. Description of Project. This PhD studentship offers an exciting opportunity to explore bioengineering technology to create functional microrobots at Cardiff University by integrating magnetic particles into synthetic biology. Read more
EPSRC fully funded 3.5 year studentship starting January/April 2025. Project Summary. Probing the microwave-specific heating controversy with nanoscale solid state thermometers. Read more
3.5 year full time EPSRC fully funded PhD starting January/April 2025. Project Summary (800 words max). Project Description. Self-lubricating bearings support medium/heavy loads moving at slow speeds. Read more
Solid state device fabrication underpinning semiconductor and quantum technology [1] relies heavily on etching and deposition techniques based on plasma chemical vapour deposition (CVD) [2,3]. Read more
Giant Rydberg excitons are recently discovered quantum objects that are generating considerable scientific excitement. They are different from conventional excitons, which are commonly observed near the band edge of semiconductor crystals because they have large sub-micron Bohr radii. Read more
Electromagnetic resonances are widely exploited in modern technologies, and significant advance in their simulation and underlying understanding has an extensive field of applications with a potential impact on society. Read more
What most of us do naturally – the breathing 500 million people struggle with as they suffer from incurable lung disease. Epigenetic mechanisms control what genes are switched on or off. Read more
Quantitative methods for studying human brain function are foundational to modern neuroscience. Among these, electroencephalography (EEG) stands out as a non-invasive technique that measures the brain's electromagnetic activity, offering crucial insights for both research and clinical applications. Read more
In 2005, a nuclear reactor at Millstone Power Station in the US was unexpectedly shut down. Technicians were stumped as to what the culprit might be, until they spotted under a microscope a thin metal filament spanning the surface of a computer card and bridging a conductive material. Read more
*Offer only available for the duration of your active subscription, and subject to change. You MUST claim your prize within 72 hours, if not we will redraw.
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