Research profile
Our research on materials characterisation and processing harnesses multiple technologies for the processing and manufacture of novel materials, particularly biomaterials and polymers. There is a particular focus on phosphors and other materials for lighting devices. We have a world-leading collection of materials characterisation techniques at our disposal, including a recently commissioned transmission electron microscope. In this area, we have relationships with a large number of SMEs.
Find out about the exciting research we do: browse profiles of our experts, discover the research groups and their inspirational research activities you too could be part of. We’ve also made available extensive reading materials published by our academics and PhD students.
Learn more about research in this area.
Browse the work of subject-relevant research groups
Find a supervisor
Our researchers create knowledge and advance understanding, and equip versatile doctoral researchers with the confidence to apply what they have learnt for the benefit of society. Find out more about working with the Supervisory Team.
You are welcome to approach your potential supervisor directly to discuss your research interests. Search for expert supervisors for your chosen field of research.
PhD topics
While we welcome applications from students with a clear direction for their research, we are providing you with some ideas for your chosen field of research:
- A systems approach to plastic waste valorisation, supervised by Kok Siew Ng
- Additive manufacturing and sustainability, supervised by Eujin Pei
- AI (Artificial Intelligence) enabled autonomous robots for non-disruptive inspection of utility and sewage systems, supervised by Md Nazmul Huda
- Ambient Vibration-Based Calibration of Finite Element Models of Bridges, supervised by Michael Rustell
- Automatic computational fluid-dynamics, supervised by James Tyacke
- Autonomous Drone Surveys and Convolutional Neural Networks for Bridge Maintenance: A Predictive Approach Using Finite Element Analysis, supervised by Michael Rustell
- Bridging the Gap: Integrating Neural Radiance Fields and Micro-drones for Enhanced 3D Volumetric Finite Element Analysis, supervised by Michael Rustell
- CFD modelling of plasma flow control, supervised by James Tyacke
- Decision making for stratified medicine life cycle, supervised by Yang Yang
- Decision making for stratified medicine life cycle, supervised by Yang Yang
- Developing Sustainable Decarbonised Polygeneration System Concept for the Production of Hydrogen, Chemicals and Energy, supervised by Kok Siew Ng
- Development of a miniature capsule robot for capsule endoscopy, supervised by Md Nazmul Huda
- Development of an Optical Shape Sensing Method Using Optoelectronic Sensors for Soft Flexible Robotic Manipulators in Minimally Invasive Surgery, supervised by Yohan Noh
- Dynamics of seawater intrusion in heterogeneous coastal aquifers, supervised by Ashraf Ahmed Mohamed
- Large Language Models (LLM) for Automated Finite Element Analysis, supervised by Michael Rustell and Tatiana Kalganova
- Life cycle assessment and circular economy for built environment, supervised by Muhammad Shafique
- Machine learning for sustainable transportation systems, supervised by Muhammad Shafique
- Multi-omics data analysis for critical disease prediction, supervised by Yang Yang
- Optimisation of geothermal energy extraction, supervised by James Tyacke
- Precision control of Nano-fuel production, supervised by Yang Yang
- Study of stray current induced corrosion in railway construction, supervised by Kangkang Tang
- Sustainable Aviation Fuel Production from Biomass and Waste using a Biorefinery Approach, supervised by Kok Siew Ng
- Sustainable production of functional materials from waste, supervised by Abhishek Lahiri
- Sustainable production of Vitamin K1, supervised by Dale McClure
- The sustainability of hydrogen production for future energy uses, supervised by Colin Axon and Peter Hewitson
- Use of Large Language Models (LLM) as a Structural Engineering Design Assistant, supervised by Michael Rustell and Tatiana Kalganova
Research journey
This course can be studied undefined undefined, starting in undefined.
Find out about what progress might look like at each stage of study here: Research degree progress structure.
Research support
Research support
Excellent research support and training
The Graduate School provides a range of personal, professional and career development opportunities. This includes workshops, online training, coaching and events, to enable you to enhance your professional profile, refine your skills, and plan your next career steps as part of the Researcher Development Programme. The researcher development programme (RDP) offers workshops and seminars in a range of areas including progression, research management, research dissemination, and careers and personal development. You will also be offered a number of online, self-study courses on BBL, including Research Integrity, Research Skills Toolkit, Research Methods in Literature Review and Principles of Research Methods.
Library services
Brunel's Library is open 24 hours a day, has 400,000 books and 250,000 ebooks, and an annual budget of almost £2m. Subject information Specialists train students in the latest technology, digital literacy, and digital dissemination of scholarly outputs. As well as the physical resources available in the Library, we also provide access to a wealth of electronic resources. These include databases, journals and e-books. Access to these resources has been bought by the Library through subscription and is limited to current staff and students.
Dedicated research support staff provide guidance and training on open access, research data management, copyright and other research integrity issues.
Find out more: Brunel Library
Careers and your future
You will receive tailored careers support during your PhD and for up to three years after you complete your research at Brunel. We encourage you to actively engage in career planning and managing your personal development right from the start of your research, even (or perhaps especially) if you don't yet have a career path in mind. Our careers provision includes online information and advice, one-to-one consultations and a range of events and workshops. The Professional Development Centre runs a varied programme of careers events throughout the academic year. These include industry insight sessions, recruitment fairs, employer pop-ups and skills workshops.
In addition, where available, you may be able to undertake some paid work as we recognise that teaching and learning support duties represent an important professional and career development opportunity.
UK entry requirements
The general University entrance requirement for registration for a research degree is normally a First or Upper Second Class Honours degree (1st or 2:1).
An interview will be required as part of the admissions process and will be conducted by at least two academic staff members remotely via MS Teams, Zoom, or face to face.
Applicants will be required to submit a personal statement and a research statement.
Please contact your proposed supervisor, where possible, to receive feedback and guidance on your research statement before submitting it. Learn how to prepare a research statement here.
EU and International entry requirements
English language requirements
- IELTS: 6.5 (min 6 in all areas)
- Pearson: 59 (59 in all subscores)
- BrunELT: 63% (min 58% in all areas)
- TOEFL: 90 (min 20 in all)
You can find out more about the qualifications we accept on our English Language Requirements page.
Should you wish to take a pre-sessional English course to improve your English prior to starting your degree course, you must sit the test at an approved SELT provider for the same reason. We offer our own BrunELT English test and have pre-sessional English language courses for students who do not meet requirements or who wish to improve their English. You can find out more information on English courses and test options through our Brunel Language Centre.
Please check our Admissions pages for more information on other factors we use to assess applicants. This information is for guidance only and each application is assessed on a case-by-case basis. Entry requirements are subject to review, and may change.
Fees and funding
2024/5 entry
International
£23,615 full-time
£11,805 part-time
UK
£4,786 full-time
£2,393 part-time
Fees quoted are per year and are subject to an annual increase.
Some courses incur additional course related costs. You can also check our on-campus accommodation costs for more information on living expenses.
Brunel offers a number of funding options to research students that help cover the cost of their tuition fees, contribute to living expenses or both. Recently the UK Government made available the Doctoral Student Loans of up to £25,000 for UK and EU students and there is some funding available through the Research Councils. Many of our international students benefit from funding provided by their governments or employers. Brunel alumni enjoy tuition fee discounts of 15%.
PhD studentships
- Advancing Aluminium Extrusion for Automotive Applications—Integration, Digitalisation, and Sustainable Innovations
- Atomic level investigations of precipitation kinetics in AA6xxx series aluminium alloys
- Next-Gen Aluminium Alloys: Pioneering Crash Safety & Strength for Electric Vehicles
- Numerical Study of Hydrogen Combustion in Heavy Duty Engines