Are you holding Master’s degree and looking for fully funded PhD Programs in Nottingham, England? University of Nottingham invites online application for multiple fully funded PhD positions in various research areas. Interested and eligible applicants may submit their online application for PhD programs via the University’s Online Application Portal.
1. Funded PhD Position in Next-generation cancer diagnosis and treatment using integrated snake-like robot with optical imaging
Summary of PhD Position:
The cancer of the bile ducts affects around 3000 people in the UK each year and its incidence and mortality are increasing. We are seeking a Ph.D. student to join our multidisciplinary team developing a radical solution for better detection and treatment that uses ultra-thin snake-like robots and advanced optical imaging techniques. We aim to combine Raman spectroscopy, a powerful label-free analytical technique that measures the molecular composition of tissue by using light to excite molecular vibrations, with imaging techniques in optical fibres, hair-thin pieces of glass, for 3D mapping of cancer tissue.
Application Deadline: 24 February 2026
2. Funded PhD Position in Machine Learning for Probabilistic Modelling of Non-equilibrium Time Series Beyond the Markovian Paradigm
Summary of PhD Position:
The overarching aim of this project is to find synergies between methods and ideas of modern machine learning and of statistical mechanics for the study of stochastic dynamics with application to the analysis of time series. In particular, the project will examine and develop methods that go beyond the Markovian paradigm. It will consider a range of time series data, focusing on those that show challenging properties of uncertainty, irregularity and mixed-modality. It will examine a range of models and techniques that go beyond Markovian approaches, including state-space models, tensor networks, and machine learning frameworks such as recurrent neural networks and transformers.
Application Deadline: Open until filled
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3. Funded PhD Position in Aeroengine Oil Systems CFD in partnership with Rolls-Royce
Summary of PhD Position:
The project focuses on developing and applying advanced CFD models for aeroengine oil systems. There will also be opportunities to integrate machine learning techniques for building lower-order predictive models. The student will gain hands-on experience in industrial applications, including practical aspects of aeroengine oil system design, spending part of their PhD based on-site at Rolls-Royce as well as receiving joint supervision and training from both the University and industry professionals.
Application Deadline: 23 December 2025
4. Funded PhD Position in Low-emission Ammonia Combustion through Smart Material Design
Summary of PhD Position:
Ammonia is an essential component of the global strategy to achieve net-zero emissions. As a carbon-free fuel, it holds great promise for decarbonising energy-intensive sectors such as power generation and shipping. However, its practical use in combustion systems remains limited by two challenges: poor reactivity and undesirable nitrogen emission. Due to its high ignition temperature and substantial activation energy, ammonia is difficult to ignite and sustain combustion in conventional systems.
Application Deadline: 15 January 2026
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5. Funded PhD Position in Computer Science
Summary of PhD Position:
Applications are invited from Home and International students for a number of fully-funded PhD studentships funded by the EPSRC Doctoral Landscape Award at the University of Nottingham, starting on 1st October 2026.
Application Deadline: 07 January 2026
6. Funded PhD Position in Fundamental studies into single atom catalysts
Summary of PhD Position:
We are recruiting applicants for a fully funded PhD studentship in the School of Chemistry at the University of Nottingham to work under the supervision of Dr David Duncan. The project will be strongly based at Diamond Light Source (Oxfordshire), the UK’s national synchrotron facility, where the student will be based for at least two years of the project. At Diamond, the student will be able to utilise cutting edge equipment to study single atom catalysts anchored on defective graphene substrates. Catalysis is a key industrial process that underpins not only the supply of consumer goods, but also the scale of food production required to feed the billions of people on this planet.