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Current research degree projects

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Explore our current postgraduate research degree and PhD opportunities.

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247 research degree projects

Biological sciences

The functional role of O-glycosylation in plant signalling pathways

Complex carbohydrates (or glycans) are the most abundant biopolymers in Nature. Plants are among the largest producers of glucose-based carbohydrate polymers, which they use as the essential scaffolding of the cell wall (cellulose) and as energy storage (starch). New research demonstrates that carbohydrates covalently attached to proteins activate specialized plant signalling networks that control plant growth and provide protection against both biotic and abiotic factors.

Funding: Fully funded (UK only)

Closing date: 23 May 2025
Engineering

Rapid alloy discovery and characterisation of additively manufactured Type 316 stainless steel and its advanced variants

This project aims to accelerate bulk alloy discovery for additive manufacturing by leveraging smart design and 3D printing of material libraries to dramatically increase the throughput of characterisation and testing. Integrated with AI-assisted workflows, the project will streamline data curation and enable rapid exploration of structural material systems.

Funding: Fully funded (UK only)

Closing date: 3 June 2025
Engineering

Closed-loop design of heat-resistant austenitic alloys through iterative machine learning and combinatorial approaches

This PhD project aims to accelerate the discovery of heat-resistant austenitic alloys by integrating machine learning with high-throughput combinatorial experiments. Through iterative design, synthesis, and validation, the project will develop advanced materials for high-temperature reactors, significantly reducing alloy development time and enhancing structural integrity under creep-fatigue conditions.

Funding: Fully funded (UK only)

Closing date: 3 June 2025
Engineering

Multi-physics simulation of hypersonic thermal structures

The extreme temperature environment around a hypersonic vehicle can presently not be simulated accurately. This project will close this gap by coupling a non-equilibrium, real-gas shock-capturing fluid solver in our AMROC/VTF framework to a general-purpose solver for solid heat conduction and surface radiation. Verification and validation cases will be studied. 

Funding: Fully funded (UK and international)

Closing date: 30 June 2025
Engineering

Accelerated creep-fatigue qualification through high-throughput testing and data fusion

Traditional approaches to metallic materials innovation against creep-fatigue rely on extensive physical testing which is currently conducted in a sequential, low-throughput manner. This project aims to develop a high-throughput creep-fatigue qualification protocol by integrating full-field imaging techniques with meso- and small-scale testing, to faithfully capture design-relevant properties for fusion energy.

Funding: Fully funded (UK only)

Closing date: 3 June 2025
Engineering

Virtual testing and design of additively manufactured lattice metamaterials

This project is in the emerging field of design of advanced materials. It aims to facilitate applications of lattice metamaterials through development of computational material characterization tools. These tools will enable the formulation of design strategies, guidelines, and methods as a long-term objective.

Funding: Competition funded

Closing date: 28 June 2025
Electronics and computer science | Engineering

Development of a low-cost wearable system for respiration monitoring using near-infrared spectroscopy (NIRS)

Respiratory diseases develop progressively. However, current monitoring methods are unsuitable for long-term continuous monitoring. Near-infrared spectroscopy (NIRS) uses light to interrogate the optical properties of tissue. This project aims to develop a wearable system for long-term respiration monitoring using NIRS powered by artificial intelligence (AI) to aid in analysis.

Funding: Fully funded (UK only)

Closing date: 20 July 2025
Engineering

Stacked Intelligent Metasurface (SIM) for Orthogonal Time Frequency Space (OTFS)

This project will explore the combination of Stacked Intelligent Metasurfaces (SIM) and Orthogonal Time Frequency Space (OTFS) in the next-generation Space-Air-Ground Integrated Network (SAGIN).

Funding: Competition funded

Closing date: 31 August 2026
Engineering | Physics and astronomy

Visible Light Integrated Sensing and Communication (VL-ISAC)

Imagine a world where there is Internet access and radar-assisted living and quantum security, wherever there is light. The objective of this project is to implement Integrated Sensing and Communication (ISAC) in visible light bands.

Funding: Competition funded

Closing date: 31 August 2026
Engineering | Mathematical sciences | Ocean and earth science

Ultrasonic gas leak localisation and characterisation in complex environments

This PhD project will develop advanced ultrasonic array techniques for hydrogen leak detection, localisation and characterisation in complex, noisy environments. Combining mathematical modelling and physics-informed signal processing with AI-driven methods (including PINNs), the research aims to enhance robust, cost-effective leak detection with industrial applications on complex sites.

Funding: Fully funded (UK and international)

Closing date: 31 August 2025