About Us
Diamond Light Source is the UK’s national synchrotron science facility. By accelerating electrons to near light-speed, Diamond generates brilliant beams of light from infra-red to X-rays which are used for academic and industry research and development across a range of scientific disciplines including structural biology, physics, chemistry, materials science, engineering, earth and environmental sciences.
The Project
Tooth decay is a major healthcare challenge that affects over 40% of the world’s population. Over time, around 30% of dentate adults in England have oral disease such as tooth decay. Oral disease can have serious and lasting complications such as toothache, swelling, and can even give rise to chewing and breathing problem, alongside tooth loss. Driven by the ageing population in the UK who need complex dental care to restore and maintain their teeth throughout their lives, as well as the fact that over 37% of dentate adults in England have one or more crowns, there has been a growing demand for patient-specific dental restorative products (e.g. dental crowns) with increased longevity.
Inspired by the natural graded microstructure (e.g. nacre and enamel) and extraordinary resistance to fracture of teeth, the novel bioinspired dental materials fabricated by the cost-effective bi-directional freeze-casting method have shown promise as the next generation dental crown materials. In this project, we seek to develop and apply, for the first time, an advanced time-resolved 3D micro-X-ray diffraction tomography combined with nanoindenter at beamline I18 to create a unique capability that will significantly extend our characterisation expertise. The project will enable significant understanding of the role of microstructure and microscale mechanical properties in determining the lifespan of a new class of novel bioinspired composite materials. This research will enable valuable insight into process-structure-property relationships in support of a cost-effective high-performance solution.
This project will establish a collaboration model to develop measurement technique. This will be performed within the multidisciplinary materials characterisation labs at the University of Surrey (Dr Tan Sui, Dr Mark Whiting), I18 beamline at the Diamond Light Source (Dr Konstantin Ignatyev) and bioinspired composites processing and fabrication at the University of Bristol (Prof Bo Su). The successful applicant will be expected to spend 50% of their studentship at Surrey, 50% at Diamond and regular visits to Bristol.
Supervisors: Dr Tan Sui & Dr Mark Whiting from University of Surrey, Dr Konstantin Ignatyev from Diamond Light Source Ltd, and Prof Bo Su from The University of Bristol.
Entry requirements
Open to UK and international students starting in October 2023.
You will need to meet the minimum entry requirements for our PhD programme.
Applicants should have (or expect to obtain by the start date) at least an Upper Second Bachelor’s degree, and preferably a Master’s degree, in an appropriate discipline (e.g. engineering, material sciences, physics, chemistry or a related subject).
If English is not the first language, IELTS 6.5 or above (or equivalent) is required, with no sub-test score less than 6.
Further Information
Diamond Light Source Ltd holds an Athena SWAN Bronze Award, demonstrating their commitment to provide equal opportunities and to advance the representation of women in STEM/M subjects: science, technology, engineering, mathematics and medicine.
Diamond jointly funds around 15-20 studentships every year with a variety of collaborators from both academic institutions to industry partners. Students accepted onto these projects will be part of our yearly cohort intake and are supported by both their academic and Diamond supervisors, as well as a dedicated Student Engagement team based at Diamond.
Diamond studentships are typically 50% funded by Diamond and 50% by the partnering university institution (or 25% funded by Diamond if there is a third party collaborator). Students are therefore required to spend 50% of their studentship at Diamond, with most students relocating to the local area for this period. Support on suggested accomodation options are provided by Diamond.
Benefits of Diamond's jointly funded studentships
Further Information
If you have further questions please contact the Student Engagement team on diamond.students@diamond.ac.uk.
Further guidance for students can be found here as well as more information about life at Diamond found here.
Applications for this project are now closed.
Diamond Light Source is the UK's national synchrotron science facility, located at the Harwell Science and Innovation Campus in Oxfordshire.
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Oxfordshire
OX11 0DE
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