PhD Studentship: Next-generation cancer diagnosis and treatment using integrated snake-like robot with optical imaging
University of Nottingham
Closing Date
Friday 07 February 2025
Reference
SCI294
Supervisors:
Prof Ioan Notingher (School of Physics and Astronomy)
Dr George Gordon and Dr Abdelkhalick Mohammad (Faculty of Engineering)
Funding: fully-funded (stipend and PhD fees)
Start date: September 2025 Duration: 3.5 years
Subject Area: Biophotonics/Optics/Engineering
The cancer of the bile ducts affects around 3000 people in the UK each year and its incidence and mortality are increasing. We are seeking a Ph.D. student to join our multidisciplinary team developing a radical solution for better detection and treatment that uses ultra-thin snake-like robots and advanced optical imaging techniques. We aim to combine Raman spectroscopy, a powerful label-free analytical technique that measures the molecular composition of tissue by using light to excite molecular vibrations, with imaging techniques in optical fibres, hair-thin pieces of glass, for 3D mapping of cancer tissue. Using lasers in the visible range allow the Raman measurements to be integrated with cutting edge fibre-optics and micro-imaging modalities, such that molecular specific information can be obtained from microscopic biological samples and maps of cancer can be made. The probe will enable precise navigation into the body, delivering high-resolution imaging and molecular Raman sensing to improve diagnosis of cancer and enable localised treatment.
What we offer:
For further information: please contact Ioan Notingher ( ioan.notingher@nottingham.ac.uk ).
Application: https://www.nottingham.ac.uk/pgstudy/how-to-apply/apply-online.aspx
Friday 07 February 2025
Reference
SCI294
Supervisors:
Prof Ioan Notingher (School of Physics and Astronomy)
Dr George Gordon and Dr Abdelkhalick Mohammad (Faculty of Engineering)
Funding: fully-funded (stipend and PhD fees)
Start date: September 2025 Duration: 3.5 years
Subject Area: Biophotonics/Optics/Engineering
The cancer of the bile ducts affects around 3000 people in the UK each year and its incidence and mortality are increasing. We are seeking a Ph.D. student to join our multidisciplinary team developing a radical solution for better detection and treatment that uses ultra-thin snake-like robots and advanced optical imaging techniques. We aim to combine Raman spectroscopy, a powerful label-free analytical technique that measures the molecular composition of tissue by using light to excite molecular vibrations, with imaging techniques in optical fibres, hair-thin pieces of glass, for 3D mapping of cancer tissue. Using lasers in the visible range allow the Raman measurements to be integrated with cutting edge fibre-optics and micro-imaging modalities, such that molecular specific information can be obtained from microscopic biological samples and maps of cancer can be made. The probe will enable precise navigation into the body, delivering high-resolution imaging and molecular Raman sensing to improve diagnosis of cancer and enable localised treatment.
What we offer:
- The chance to work in a world-class multi-disciplinary team consisting of physicists, engineers and clinicians: an excellent opportunity for inter-disciplinary training.
- 3.5 years funding includes stipend, tuition fees for UK students
- A supportive environment as signatories of the Researcher Development Concordat (www.vitae.ac.uk/policy/concordat)
- The opportunity to produce high-quality publications
- Funding for research consumables, Travel to international conferences.
- A 1st degree in physics or engineering.
- An interest in optics, some ability in computer programming
- A desire to learn new skills in complementary disciplines.
For further information: please contact Ioan Notingher ( ioan.notingher@nottingham.ac.uk ).
Application: https://www.nottingham.ac.uk/pgstudy/how-to-apply/apply-online.aspx
JOB SUMMARY
PhD Studentship: Next-generation cancer diagnosis and treatment using integrated snake-like robot with optical imagingUniversity of Nottingham
Edinburgh
8 days ago
N/A
Full-time