Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- University of Nottingham
- Cranfield University
- The University of Manchester
- Newcastle University
- University of Warwick
- University of Sheffield
- The University of Manchester;
- University of Birmingham
- Imperial College London
- Swansea University
- University of Birmingham;
- University of East Anglia;
- University of Nottingham;
- University of Surrey
- University of Warwick;
- ;
- Loughborough University;
- University of Cambridge;
- University of East Anglia
- University of Exeter
- University of Leeds
- University of Newcastle
- Aston University
- Coventry University Group
- Cranfield University;
- Harper Adams University
- King's College London
- King's College London;
- Lancaster University
- Manchester Metropolitan University
- Newcastle University;
- Northeastern University London
- UCL
- UCL;
- University of Cambridge
- University of Dundee;
- University of Essex;
- University of Exeter;
- University of Greenwich
- University of Greenwich;
- University of Lincoln
- University of Oxford
- University of Plymouth
- University of Sheffield;
- University of Strathclyde
- University of Surrey;
- 36 more »
- « less
-
Field
-
Exciting Fully Funded PhD: Computational Modelling for High-Pressure, Low-Carbon Storage Technologies. Be a Key Player in Shaping the Future of Clean Energy Storage! School of Mechanical, Aerospace
-
Programme, which seeks to transform the UK’s capabilities to improve understanding of mechanisms and health outcomes, using respiratory and allergic disorders as exemplar domains. We seek to enrol the most
-
focus of their work is the role of protein dynamics and quantum mechanics during enzyme catalysis. Much of the work involves computational chemistry, often combing molecular dynamics (MD) simulations with
-
Technologies for 2025 ), structural power composites (SPCs) meld electrochemical energy storage with mechanical load-bearing, delivering huge sustainability benefits. The topic brings together the two disparate
-
pathway to overcome the limitations of polymer-based membranes, offering superior thermal and chemical stability, enhanced mechanical robustness, and the potential for operation across wider temperature and
-
extreme threats to national security. AWE has pioneered advancements in areas including physics, engineering, materials science, and high-performance computing. Together we’ve helped shape the UK’s
-
that "feeling" the correct movement can be a mechanism to improve skill learning, akin to the far larger body of work on observational learning in surgery (e.g., Lebel, Haverstock, Cristancho, van Eimeren
-
respond to aerodynamic loads in real time, mimicking avian flight. You will adopt an integrated computational–experimental approach, including CAD for structural design, aeroelasticity modelling of aircraft
-
, Mathematics, Computer Science, or a related quantitative field Have strong modelling, computational, and code development skills Have experience with network science, multi-agent systems, statistical mechanics
-
for ToM-enhanced autonomous decision-making. Mechanisms for ToM-based multi-agent coordination and conflict resolution. Benchmarked evaluation of ToM-enabled agents in simulated human-agent and multi