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23 Fully Funded PhD Programs at Newcastle University, England, United Kingdom

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Are you holding Master’s degree and looking for fully funded PhD positions? Newcastle University, England, United Kingdom invites online application for multiple funded PhD Programs / fully funded PhD positions in various research areas.

Candidates interested in fully funded PhD positions can check the details and may apply as soon as possible. Interested and eligible applicants may submit their online application for PhD programs via the University’s Online Application Portal. 

1. Fully Funded PhD Position in Astrophysics 

Summary of PhD Program:

The School of Mathematics, Statistics and Physics at Newcastle University hosts several active research groups in the areas of cosmology, observational astrophysics and astrophysical fluid dynamics. We are offering one funded PhD studentship. Available PhD projects include:

  • Understanding the dark Universe with cosmological analysis of large-scale structure (Studentship code MSP090; Programme code 8821F)
  • Instabilities in the Solar Interior (Studentship code MSP091; Programme code 8080F)
  • Dynamics of the subsurface oceans of icy moons (Studentship code MSP092; Programme code 8080F)

Application Deadline: 31st January 2025

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2. Fully Funded PhD Position in Process Industries: Net Zero: Development of Sustainable Manufacturing Processes for Confectionery Products 

Summary of PhD Program:

The PINZ CDT will train the next generation of process and chemical engineers, and chemists, to develop the new processes, process technologies and green chemistries required for the process industries’ transition to Net Zero. Climate change is one of society’s greatest challenges. As the world’s largest food and beverage company, Nestlé has pledged its commitment to reducing greenhouse gas emissions and achieving net zero emissions from their global manufacturing processes by 2050. 

Application Deadline: 2nd February 2025

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3. Fully Funded PhD Position in Process Industries: Net Zero – Decarbonisation of thermal separation processes for removing water and organic solvents from high-performance ingredients 

Summary of PhD Program:

This PhD project is part of the CDT in Process Industries: Net Zero. The successful PhD student will be co-supervised by academics from the Process Intensification Group at Newcastle University. Established in 1925, Croda is the name behind sustainable, high-performance ingredients and technologies in some of the world’s most successful brands: creating, making and selling speciality chemicals that are relied on by industries and consumers everywhere. This project will help to support Croda’s “Net Zero by 2050” strategy, enabling them to invest in low-carbon, intensified processes that meet their future manufacturing needs. 

Application Deadline: 26th January 2025

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4. Fully Funded PhD Position in Net Zero – Data Driven Optimisation for Process Scale-up 

Summary of PhD Program:

This PhD project is part of the CDT in Process Industries: Net Zero. The successful PhD student will be co-supervised by academics from the Process Intensification Group at Newcastle University. Nestling has designed a containerised cultivation and processing plant for a broad range of microorganisms with a focus on mycelium. The system is fully automated; the SCADA system is connected to the cloud and provides performance data, enabling the monitoring of critical process parameters (CPPs) and critical quality attributes (CQAs). Nestling wishes to collect the data and apply machine learning techniques to identify process efficiency improvements and enable prediction across scales for a given biological process. 

Application Deadline: 26th January 2025

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5. Fully Funded PhD Position in Using Data-Driven Methods to Model Planetary Atmospheres and Oceans

Summary of PhD Program:

Juno observations of the upper atmosphere Jupiter reveal complicated small-scale features consisting of eddies, jets, and filaments. Similar features are expected to be present in the atmospheres and oceans of other celestial bodies. Modeling these dynamical processes is difficult given the wide range of scales that must be resolved to fully capture the motion. As such, these small-scale features are typically unresolved in numerical simulations due to resolution constraints. Instead, a physical understanding of these unrepresented processes must be incorporated directly into the model via a technique known as ‘parametrisation’.

Application Deadline: 31st January 2025

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6. Fully Funded PhD Position in Understanding the retention and treatment of highway runoff pollutants within roadside bioretention systems – and implications for design and long-term maintenance

Summary of PhD Program:

Significant risks posed by highway runoff to the UK water environment have been exposed by industry associations, government and environmental organisations, scientists, and media streams in recent months. The composition of road runoff, which includes road salts, heavy metals, hydrocarbons and PAHs, PFAS, PFOS, PFOA, and a suite of microplastics and tyre wear constituents, means harmful pollutants may be present in significant concentrations.

Application Deadline: 28 February 2025

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7. Fully Funded PhD Position in Structural and functional characterisation of mycobacterial outer membrane proteins

Summary of PhD Program:

Every year mycobacterial pathogens, including Mycobacterium tuberculosis, are responsible for millions of deaths worldwide. Mycobacteria are surrounded by a complex cell envelope comprising an outer-membrane rich specialised lipids. This barrier acts to restrict the import and export of nutrients and proteins across the cell envelope. We still know very little about the proteins and transport systems residing in the mycobacterial outer membrane. This project aims to identify, isolate and characterise membrane transport systems from mycobacteria using a multi-disciplinary approach combing structural biology with molecular microbiology to elucidate transport mechanisms. 

Application Deadline: 28th February 2025

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8. Fully Funded PhD Position in Processes driving neurodegeneration and cognitive impairment in Lewy body dementia 

Summary of PhD Program:

Lewy body dementia (LBD) is a common neurodegenerative disorder which has no cure, in part because the disease mechanisms that underlie neurodegeneration are not known. This PhD studentship has the potential to identify some of these mechanisms, and may help us develop more effective treatments. To better understand LBD, this studentship will employ neuropathological examination of post-mortem brain tissue combined with high-field neuroimaging in living patients to interrogate associations between neurodegeneration and potential causative mechanisms, including iron accumulation, mitochondrial dysfunction and formation of protein aggregates. 

Application Deadline: 31st January 2025

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9. Fully Funded PhD Position in Innovative ways of supporting physical activity promotion and the systems that drive it

Summary of PhD Program:

Despite decades of collective efforts, there has been little reduction in global and UK physical inactivity. We are interested in researching new approaches to how systems (e.g. politicians, national and local policymakers, charities, and communities) bring about changes in physical activity. We are looking for a student who can think creatively with theory from different areas (e.g., sport and exercise sciences, psychology, sociology, political and systems sciences), regardless of their disciplinary background. 

Application Deadline: 31st January 2025

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10.
Fully Funded PhD Position in GREEN: Growing Rare Earth Elements in the Northeast

Summary of PhD Program:

We are looking for an enthusiastic and curious PhD researcher to work on an interdisciplinary project to build U.K. green technology infrastructure by transforming legacy mine waste into a secondary source of critical minerals, required for the technologies that will decarbonised the global economy. One challenge for the UK is the absence of primary rare earth elements (REE) deposits. Additionally, the current process of extracting REE from ores is energy and chemically intense with serious environmental implications; many countries’ environmental regulations prevent the processing of REE ores.

Application Deadline: 3rd February 2025

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11. Fully Funded PhD Position in The potential of heat exchange in Sustainable Drainage Systems for decarbonising heating and cooling

Summary of PhD Program:

There is no more important challenge in engineering than that presented by climate change. This project is at the cutting-edge of this challenge as it seeks to explore opportunities to both decarbonise our single greatest energy use (space heating and cooling) in combination with sustainable, nature-based solutions to adapt our urban areas to cope with ever-increasing extremes in weather e.g., high intensity rainfall induced flooding, prolonged drought and heat waves. Sustainable Drainage Systems (SuDS) are a form of increasingly widespread Green Infrastructure, offering multiple benefits besides the management of urban runoff. Ground Source Heat is a well-established technology for providing low-carbon heating/cooling that exploits low-grade heat recovery using buried heat exchangers in a variety of forms.

Application Deadline: 28 February 2025

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12. Fully Funded PhD Position in Developing Self-Healing Coatings for Hydrogen Storage Systems

Summary of PhD Program:

Hydrogen has emerged as a promising, clean, and versatile energy carrier, playing a key role in achieving global sustainability goals. One of the biggest challenges lies in its the safe and efficient storage, particularly due to hydrogen embrittlement – a phenomenon where hydrogen permeates storage materials, compromising their structural integrity. The research will focus on this critical issue by developing a Self-Healing, Hybrid Coating to enhance the safety and durability of steel-based hydrogen storage systems. The coating will ensure safer, more efficient hydrogen storage by preventing material degradation and failure.

Application Deadline: 3rd February 2025

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13. Fully Funded PhD Position in Building a Digital Twin of the Tees estuary to evaluate the resilience of nature based solutions for nutrient (N & P) capture 

Summary of PhD Program:

Northumbrian Water have proposed substantial investments in nature-based solutions (NBS) to deliver nutrient neutrality for the Tees estuary and surrounding coastal waters at scales not seen in the UK. The reduction of nitrogen loading is the primary driver; however, the NBS also have capacity to deliver parallel removal of phosphorus. The NBS include the restoration of native oyster, seagrass, and saltmarsh habitats, together with seaweed and shellfish farming. Success is predicated on ensuring the organisms remain healthy and functional for many years.

Application Deadline: 28 February 2025

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14. Fully Funded PhD Position in Accelerating emerging PV deployment through standardized device to system level operational testing

Summary of PhD Program:

This project will support faster commercialisation of emerging photovoltaic (PV) technologies by establishing a platform for system level operational testing, in real world settings. It would be of interest to candidates with a science or engineering background, with an interest in emerging photovoltaics and how they behave under real-life conditions. The collaboration with the National Physical Laboratory (NPL) will enable the specific features of emerging PV technologies such as perovskite PV at device and system level to be evaluated. Metrics for such features will be determined and through system level data analysis, modelling and lab measurements

Application Deadline: 3rd February 2025

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15. Fully Funded PhD Position in Staphylococcus aureus interactions in cystic fibrosis polymicrobial infections 

Summary of PhD Program:

You will engineer GFP promoter fusions to assess T7SS ‘switching on’ in response to the CF environment, clinically relevant antibiotics and presence of other bacteria. You will assess ability of Sa wild type, T7SS mutants and secreted toxin mutants to form biofilms with other CF pathogens, in particular Pseudomonas aeruginosa (Pa), looking at spatial localisation and survival in the biofilm. You will determine how Sa interacts with airway commensals and whether/how they modulate Sa/Pa interactions. 

Application Deadline: 17th January 2025

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16. Fully Funded PhD Position in Indoor Photovoltaic Devices and Materials Integration for IoT Applications

Summary of PhD Program:

We are seeking an exceptional PhD candidate to join Prof. Marina Freitag’s research group, funded by the Royal Society University Research Fellowship. This cutting-edge project aims to revolutionize sustainable energy solutions for the Internet of Things (IoT) by developing smart indoor photovoltaic technologies integrated with artificial intelligence.

Application Deadline: 23rd January 2025

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17. Fully Funded PhD Position in Computational Astrophysics – Magnetic Fields and Superconductivity in Neutron Star Cores

Summary of PhD Program:

Curious to learn more about the strongest magnets of the Universe? This PhD project will explore connection between magnetic fields of neutron stars and properties of the matter in their cores. Soon after the discovery of first neutron stars, it was suggested that the inner part of the star (its core) is a gigantic superconductor. Over the last twenty years researchers made extraordinary progress in understanding of different types of neutron stars and their X-ray emission by modelling crust-confined magnetic field evolution, but completely ignoring the core. It is time now to start disentangling the core mystery and to probe different scenarios for magnetic field evolution in the core while considering superconductivity.

Application Deadline: 31st January 2025

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18. Fully Funded PhD Position in Cardiovascular Development: “Cell interactions in fourth pharyngeal arch artery morphogenesis”, funded by the British Heart Foundation

Summary of PhD Program:

To uncover the gene regulatory networks and signalling events between the different cell types required for arch artery formation we have been using state-of-the-art single cell sequencing technologies. In this PhD project you will interrogate this data using bioinformatic techniques to identify candidate genes for further analysis. These genes will be investigated in model organisms using a range of laboratory techniques including RNA and protein visualisation by in situ hybridization (using the RNAscope technique) and immunohistochemistry, fluorescent activated cell sorting (FACS), quantitative real-time RT-PCR, molecular cloning and cell culture assays. 

Application Deadline: 28th February 2025

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19. Fully Funded PhD Position in Astrophysics: Quasar Feedback in the Radio Band: Obscuration & Cosmic Ray Acceleration

Summary of PhD Program:

Every massive galaxy hosts a supermassive black hole in its centre. Accretion onto supermassive black holes releases tremendous energy, powering quasars that influence galaxy evolution. Energy input through radiation, winds, and jets interacts with interstellar gas, producing shocks and galactic outflows. These shocks also accelerate relativistic particles—“cosmic rays”—that spiral along magnetic fields, impacting galaxy properties and generating synchrotron radio emission. Recent radio observations of quasars reveal an intriguing correlation: quasars more deeply buried in gas – more obscured – produce stronger radio emission. Is enhanced radio emission a direct signature of quasar impact on these galaxies?

Application Deadline: 31st January 2025

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20. Fully Funded PhD Position in Ageing – Why do men and women age differently? 

Summary of PhD Program:

Our hypothesis suggests that evolutionarily conserved, sex-specific stress responses drive differences in cellular senescence. Variations in senescent cell accumulation or traits may underlie sex-based disparities in age-related pathologies. In this project, you will examine stress response mechanisms—such as mitochondrial function, DNA damage response, and autophagy—to understand how they contribute to distinct ageing patterns, through cell senescence. You will also test drugs for sex-optimised targeting. Over your PhD, you’ll gain expertise in biochemical and molecular biology techniques, microscopy, image analysis, and mitochondrial assays using both in vitro and in vivo mouse models. 

Application Deadline: 31st January 2025

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21. Fully Funded PhD Position in ‘Staying in business? The aftermath of acquired disability for the entrepreneur’

Summary of PhD Program:

There is a long history of investigating entrepreneurs as groups based on certain shared demographic characteristics (e.g., age, gender, ethnicity). However, there is a much shorter history of research that examines disability as a characteristic, despite a steadily increasing number of outputs in recent years (Darcy et al., 2023; Hidegh et al., 2023). Knowledge to date has tended to coalesce around certain key themes: self-employment as a path into the labour market for the disabled (Norstedt and Germundsson, 2023); the specific support needs of the disabled if they do achieve business ownership status (Csillag et al., 2019); and, the type of businesses that disabled entrepreneurs tend to run (Kašperová, 2021). 

Application Deadline: 17 February 2025

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22. Fully Funded PhD Position in Systematic investigation of pyrolysis process and products for sustainable biochar production 

Summary of PhD Program:

This PhD project aims to systematically investigate and enhance the pyrolysis process of crop waste, focusing on improving efficiency and product quality. The research will cover various aspects of the process, including exploring the entire operational range across different production scales to minimize environmental impact and production costs. Additionally, the study will assess potential revenue streams for Circular Carbon by analysing advanced application scenarios for the solid, liquid, and gaseous by-products of pyrolysis. These analyses will be based on process and product characterisation, comprehensive life cycle and techno-economic assessments to align with evolving market trends and client needs, as well as to support biochar-based carbon dioxide removal initiatives. 

Application Deadline: 16th February 2025

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23. Fully Funded PhD Position in Whole system optimisation of bioresources 

Summary of PhD Program:

This PhD project is part of the CDT in Process Industries: Net Zero. The successful PhD student will be co-supervised by academics from the Process Intensification Group at Newcastle University. NWL operates two Advanced Anaerobic Digestion Plants (AAD), one on Teesside and one on Tyneside. These plants process more than 70,000 tonnes of biosolids, generating 160GWh of biofuels. Most of the biosolids are collected by road from across the North East of England – from the Scottish Border to the North York Moors. The biosolids have a high water content – meaning NWL transfers around 750,000 tonnes of material each year into the two sites and following treatment, the residual product is deposited to land as fertiliser – a further 100,000 tonnes of material moved. This haulage activity uses approximately 1.6million litres of diesel each year.

Application Deadline: 26th January 2025

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