Qualification Type: | PhD |
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Location: | Swansea |
Funding for: | UK Students |
Funding amount: | £19,237 p.a. |
Hours: | Full Time |
Placed On: | 19th September 2024 |
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Closes: | 7th October 2024 |
Funding providers: Engineering and Physical Sciences Research Council (EPSRC) Doctoral Training Partnerships (DTP) and Swansea University's Faculty of Science and Engineering
Subject areas: Chemical Engineering, Biomedical Engineering, Applied Physics
Supervisors:
Dr Francesco Del Giudice (primary- francesco.delgiudice@swansea.ac.uk)
Dr Hari Arora (secondary)
Project start date(s):
1 January 2025
1 April 2025
1 July 2025
Aligned programme of study: PhD in Chemical Engineering
Mode of study: Full-time
Project description:
Cells are living systems highly sensitive to changes to the local environment, meaning that a change of temperature, pH or other properties can result in the cell changing its morphology and overall behaviour. In this project, the successful candidate will employ such cell behaviour to design, fabricate and test microfluidic fibres containing cells; such structures will act as “living sensors”, providing a physical response to a variety of external stimuli such as drug administration, electric signals, mechanical stimuli, and temperature gradients. The impact of this project stems in anticipated applications in diagnostic healthcare and drug development.
The candidate will design fibres having controlled cells spacing, by using the principle of viscoelasticity-induced ordering in straight microchannels. The advantage over traditional methodologies is that cells will be aligned along a single line in the fibre, meaning that the external stimuli will be uniformly felt along the cell population line, resulting in the first-of-its-kind living tuneable sensor with cell-specific response. Unit sensors will be robustly characterised. Data will train a machine learning model to optimise sensor configurations (for multiple unit sensors) for a given application. The project will bring together Soft Matter, Biomedical Engineering and Data Science to generate a versatile tool with great potential across several fields. Experimental activities will mainly be carried out at the Rheological Microfluidic lab led by Dr. Francesco Del Giudice.
(Please visit the website for more information on project description)
Eligibility
Candidates must hold a UK Bachelor degree with a minimum of Upper Second Class honours in Engineering or similar relevant science discipline, or overseas Bachelor degree deemed equivalent to UK Bachelor (by UK ECCTIS) and achieved a grade equivalent to UK Upper Second Class honours in Engineering or similar relevant science discipline – see country specific qualifications.
Due to funding restrictions, this scholarship is open to applicants eligible to pay tuition fees at the UK rate only, as defined by UKCISA regulations.
Please note that you may need to provide evidence of your English Language proficiency.
If you have any questions regarding your academic or fee eligibility based on the above, please email pgrscholarships@swansea.ac.uk with the web-link to the scholarship(s) you are interested in.
Funding Details
Additional Funding Information
This scholarship covers the full cost of tuition fees and an annual stipend at UKRI rate (currently £19,237 for 2024/25).
Additional research expenses of up to £1,000 per year will also be available.
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