A multi-disciplinary course, students will be introduced to the field of biomaterials, and important factors in the selection, design, and development of biomaterials for clinical applications. You’ll develop an understanding of biomaterials science, engineering, regenerative medicine and associated specialisms.
This course will be of particular interest to students interested in facilitating their development into the medical field aiming to contribute in the health care sector.
A welcoming department
A friendly, forward-thinking community, our students and staff are on hand to welcome you to the department and ensure you settle into student life.
Your project supervisor will support you throughout your course. Plus you’ll have access to our extensive network of alumni, offering industry insight and valuable career advice to support your own career pathway.
Prospective employers recognise the value of our courses, and know that our students can apply their knowledge to industry. Our graduates work for organisations including Airbus, Rolls-Royce, the National Nuclear Laboratory and Saint-Gobain. Roles include materials development engineer, reactor engineer and research manager. They also work in academia in the UK and abroad.
90 per cent of our graduates are employed or in further study 6 months after graduating, with an average starting salary of £27,000, the highest being £50,000.
Equipment and facilities
We have invested in extensive, world-class equipment and facilities to provide a stimulating learning environment. Our laboratories are equipped to a high standard, with specialist facilities for each area of research.
Tools and production facilities for materials processing, fabrication and testing, including wet chemical processing for ceramics and polymers, rapid solidification and water atomisation for nanoscale metallic materials, and extensive facilities for deposition of functional and structural coatings.
Radioactive nuclear waste and disposal
Our £3million advanced nuclear materials research facility provides a high-quality environment for research on radioactive waste and disposal. Our unique thermomechanical compression and arbitrary strain path equipment is used for simulation of hot deformation.
You’ll have access to newly refurbished array of microscopy and analysis equipment, x-ray facilities, and surface analysis techniques covering state-of-the-art XPS and SIMS. There are also laboratories for cell and tissue culture, and facilities for measuring electrical, magnetic and mechanical properties.
The Kroto Research Institute and the Nanoscience and Technology Centre enhance our capabilities in materials fabrication and characterisation, and we have a computer cluster for modelling from the atomistic through nano and mesoscopic to the macroscopic.
Stimulating learning environment
An interdisciplinary research-led department; our network of world leading academics at the cutting edge of their research inform our courses providing a stimulating, dynamic environment in which to study.
Teaching and assessment
Working alongside students and staff from across the globe, you’ll tackle real-world projects, and attend lectures, seminars and laboratory classes delivered by academic and industry experts.
You’ll be assessed by formal examinations, coursework assignments and a dissertation.
Materials for Biological Applications; Scientific Writing and Health Informatics; Polymers Materials Chemistry; Biomaterials II (Advances in Biomaterials); Tissue Engineering and Regenerative Medicine; Structural and Physical Properties of Dental and Biomaterials.
Examples of optional modules
Group Projects in Bioengineering; Dental Materials Science; Tissue Structure and Function; Design of Medical Devices and Implants; Introduction to Digital Dentistry and Dental Manufacturing.