Current research degree projects
Explore our current postgraduate research degree and PhD opportunities.
Explore our current postgraduate research degree and PhD opportunities.
Do you have expertise and enthusiasm for human factors in healthcare? Do you want to carry out research that could have real benefits for staff and patient safety?If the answer is ‘yes’, then you should apply for this funded PhD project to address fatigue risk management in healthcare.
The aim of the project is to work on state-of-the-art heteropolymetallic architectures (organometallic transition-metal and lanthanide complexes) in the area of two-photon molecular upconversion luminescence, for application as novel bioimaging probes.
An opportunity has arisen for a PhD research student to work on an exciting project “Storage of liquid hydrogen fuel for net-zero maritime transportation” in the Infrastructure Research Group at the Civil, Maritime and Environmental Engineering Department in University of Southampton.
The aim of this project is to create a better spatial hearing experience for users in a large region without the need to wear headphones.
This project aims to explore the design of an alternative class of microphone arrays, so-called co-prime microphone arrays, for recording and processing speech in adverse environments. This will address a key challenge to improve the performance of modern smart devices in noisy and reverberant environments.
We are looking for a new PhD student to join our growing team, working on the design and development of next generation optical fibres to enable novel distributed gas sensing networks. Key applications include environmental and industrial process monitoring.
We are looking for a new PhD student, with a background in Physics, Chemistry or Engineering, to join our friendly team, working on a novel gas sensor for applications including next generation energy sources (such as nuclear fusion reactors), sustainable process monitoring and point of care medical diagnosis. If you are looking for hands-on, primarily experimental project, working with an exciting new technology, which spans between academic research and commercial instrument development, then this project could be for you.
In the local Universe, galaxies can be broadly classified into discs, ellipticals and irregulars. Discs contain regularly-rotating gas, and are forming new stars. Ellipticals contain predominantly old stars in randomly oriented, round-shaped orbits, don't have much gas and are no longer forming stars. Irregulars are often the result of the merger between two disc galaxies, are rich in gas and dust, and are forming stars at an intense rate.
Ellipticals are amongst the most massive galaxies in the present-day Universe, have spheroidal morphologies and red colours, and were formed more than 10 billion years ago. They contain very little cold gas, and are not forming new stars at a substantial rate.How these objects have been formed and evolved across cosmic history is one of the main puzzles for galaxy formation and evolution studies. Indeed, observations show that at their formation epoch, that is redshift z~1-3, most galaxies were actively forming stars within extended stellar discs. Therefore, some mechanisms must quench star formation and induce morphological transformations in galaxies.
Cancer continues to be one of the most prevalent diseases worldwide. Cancer is associated with a very high mortality rate (50% survival at 10 years) as most cancers are diagnosed at a late stage. Recent advances have been made in early detection, though the assays employed are still experimental, highly expensive and can suffer from poor sensitivity and specificity. On the other hand, vibrational spectroscopy (Mid-IR and Raman) has shown to be robust in detecting cancer-specific analytes within the blood and other bodily fluids.