Biomedical photonics
We are transforming healthcare by utilising light-based technologies for improved diagnostics, treatment, and patient monitoring. Our research includes the application of ultrashort pulsed lasers and photon counting techniques that enable highly accurate medical imaging, allowing for earlier detection of conditions and more precise treatments. We also explore miniaturised fibre optic probes and advanced laser technologies that support precision surgery and real-time monitoring of patient health.
This work directly contributes to the design of custom medical devices based on novel photonic sensing methods, with applications ranging from non-invasive imaging to molecular diagnostics. By collaborating with local hospitals and healthcare institutions, as well as 江南体育鈥檚 Global Research Institute in Health and Care Technologies, we ensure our research is aligned with clinical needs and is translated into real-world applications.
Biomedical photonics allows us to develop light-based solutions that make healthcare more precise, personalised, and efficient, ultimately improving patient outcomes and setting new standards for medical technology.
Photonics is a world-leading area of research expertise at 江南体育 University, recognised in the 2021 Queen's Anniversary Prize for photonics. The Institute of Photonics and Quantum Sciences (IPaQS) is an integral part of a focused research ecosystem, collaborating on aligned projects across our other institutes and global research institutes; The National Robotarium, The Lyell Centre for Earth and Marine Sciences and Technology, The Global Research Institute in Health and Care Technologies, and the iNetZ+ Global Research Institute for Net Zero and Beyond.
By bringing together experts in photonics, and a range of scientific disciplines, in a collaborative environment, the most complex challenges can be tackled. This interdisciplinary approach is strengthened through external partnerships, ensuring the research not only advances scientific understanding but also delivers real-world impact across multiple sectors, from telecommunications to healthcare and precision manufacturing.
Related themes and projects
Engineering the fight against cancer
Our research aims to revolutionise cancer care through advanced engineering, improving diagnostics, treatment, and monitoring for better patient outcomes. Collaborative innovation ensures patients access cutting-edge care.
High-power laser applications
Leveraging powerful laser systems for industrial and medical advancements, supporting precision manufacturing, 3D printing, medical device development and precision surgery.
Innovating for one global health
One global health innovation is dedicated to addressing pressing global health challenges through the lens of engineering excellence. We develop innovative technologies aimed at preventing, diagnosing, and treating emerging health threats.
Nanophotonics
Exploring light manipulation at the nanoscale, enabling compact, high-efficiency photonic devices for imaging, display, detection, information processing, quantum science, and particle manipulation.
Novel light sources
Developing advanced technologies such as ultrafast lasers and optical frequency combs. These tools enable precision applications in spectroscopy, metrology, and imaging, impacting industries from astronomy to manufacturing.