The programme will begin with a pre-sessional week at Warwick during which social and networking sessions will be organised for the cohort. The formal focus will also be to help chemists, physicists, material scientists, engineers and scientists from related disciplines, speak the same scientific language. This will be achieved through workshops and small group interactions.
During the two teaching terms, a module leader, plus two to three academics or industrialists selected for their relevant expertise will deliver each two week module. Each module is worth 10 Credits (100 hours student effort), which typically breaks down into:
- 20 hours - taught lectures, seminars and problem classes
- 30 hours - workshops or laboratories
- 50 hours - independent and cohort work
There are ten taught modules, several of which have been developed in close partnership with industry (e.g. Oxford Lasers, Renishaw, E6, De Beers) who will contribute to module delivery. The remaining 80 credits of the 180 credit course will come from research projects that will take place at one of eight partner institutions or an industrial company.
- DST Module 1: Novel and Efficient Methods of Material Synthesis
- DST Module 4: Theory and Modelling of Materials
- DST Module 6: Surfaces, Interfaces and Coatings
- DST Module 7: Devices and Fabrication
- DST Module 9: Applications of High Performance Materials
- DST Module 11: Mini Research Project 1 and 2
- DST Module 2: Properties and Characterization of Materials
- DST Module 3: Defects and Dopants
- DST Module 5: Manufacturing the Future: Industrial Diamond
- DST Module 8: Photonics and Quantum Technologies
Students must choose one of the following two modules:
- DST Module 10a: Electrochemistry and Sensors
- DST Module 10b: Biomedical Optics and Applications
* The modules mentioned above may be subject to change. Please read our terms and conditions for more detailed information.
Teaching and assessment styles will vary from module to module to best deliver and examine the training content. Lectures, seminars and workshops will be reinforced with a significant practical component. This will make use of the substantial instrumentation and computational resources at Warwick. The facilities will also be supplemented by the loan of specialised equipment from collaborators. The practical aspects of the modules will enable students to gain essential hands-on experience, of a wide variety of techniques/instrumentation.
A mixture of oral and written examinations and assessments will be employed to ensure the students gain experience of team work, research paper and proposal writing, science communication and web page development.
Full-time: 1 year
Part-time: 2 years
2:ii undergraduate degree (or equivalent) in a related subject
English Language requirements
Department of study
Location of study
University of Warwick
Home/EU: £8,580 per year
Overseas: £24,640 per year
Home/EU: £4,290 per year
Overseas: £12,320 per year
Find out more about fees and funding.