Funding your graduate study
Tuition fees
Tuition fees are payable for each year of your course at the start of the academic year, or at the start of your course, if later. Academic fees cover the cost of tuition, examinations and registration and some student amenities. Research course fees are band 2.
Find your perfect research project here:
Cleaning up photovoltaics: Nanoscale protective coatings for solar glass
Qualification: Doctor of Philosophy in Engineering (PhD)
Start date: 6th January 2025, 1st April or 6th October 2025
Application deadline: Apply today!
Innovative Advancements in Inductive Heating Technology:
Design, Development, and Optimization for Pioneering Applications in Cancer Therapeutics and Hydrogen Generation Energy Storage Systems.
Revolutionizing Energy Storage: Advancements in Novel Materials for Enhanced Performance and Sustainability in Metal-Air Battery Technology.
This prospective PhD project aims to spearhead innovations in energy storage by delving into the realm of metal-air battery technology.
Scholarships by country
Information on international scholarships/funding available in different countries can be found here
Multisensory assessment of built environment through immersive technologies
Qualification: Doctor of Philosophy in Engineering (PhD)
Start date: 6th January 2025
Application deadline: 1st December 2024
Machine Learning-based Low Latency Holographic-type Communications
Qualification: Doctor of Philosophy in Engineering (PhD)
Start date: 6th January 2025
Application deadline: 1st November 2024
This project aims to reduce the network latency of HTC with a focus on adaptive bitrate streaming (ABR) algorithm. Innovative machine learning (ML)/artificial intelligence (AI) approach will be designed to deliver point cloud data by jointly considering network conditions, computing capability, and end users’ experience. The proposed approach will be validated in both simulation and real-world HTC testbed. A use case of an immersive telesurgery will be demonstrated in collaboration with medical and hospital partners in the UK.
The Lightweight Gearbox Design using 3D Printing Polymer Composite Gears and their applications in E-Motorbikes and E-Vehicles
- The Lightweight Gearbox Design using 3D Printing Polymer Composite Gears and their applications in E-Motorbikes and E-Vehicles
- The High Performance Polymer Composite Gears in Electrical Vehicles
- Tyre Dynamic Contact Analysis
Microjet plasma interactions with slurry to mitigate NH3 volatilisation
Alumni Discount Scheme
The 10% tuition fee discount will be available to Warwick graduates who have Home/EU or Overseas fee status. You must be a graduate of Warwick at any level of qualification.
The University of Warwick provides an inclusive working and learning environment, recognising and respecting every individual’s differences. We welcome applications from individuals who identify with any of the protected characteristics defined by the Equality Act 2010.