Are you holding Master’s degree and looking for fully funded PhD positions? University of Edinburgh, Edinburgh, Scotland 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 Metamaterials for Oil/Water Separation
Summary of PhD Program:
In this project, the focus will be on creating hydrophobic mechanical metamaterials using foams and characterizing their properties when in contact with different liquids. The project will also consider a possible application in the programmable separation of oil-water mixtures and de-fouling of materials. The project will investigate whether strain might be used as a switch to allow oil to either be blocked to to pass through the material and whether strain can be used to release particulates blocking the material when it is used as a filter.
Application Deadline: Open until filled
2. Fully Funded PhD Position in Machine Learning (ML) for Polymer Blending Optimisation
Summary of PhD Program:
This PhD project aims to combine state-of-the-art Artificial Intelligence (AI) and Machine Learning (ML) methodologies in order to explore optimal blending and processing conditions for polymeric material classes, towards developing materials which will achieve high performance indices for key target properties, while also ensuring high processability and cost-optimal manufacturing at scale.
Application Deadline: 30/05/2025
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3. Fully Funded PhD Position in Large-Scale Digital AI systems for Large Language Models (LLMs)
Summary of PhD Program:
The project aims at building large-scale AI accelerators for Large Language Models (LLMs), with a specific focus on Transformers. Diverse hardware optimization techniques can be used, targeting a scalable tile-based Tensor Processing Units (TPUs) engine with massive on-chip global buffers for data-stationary. Systolic Array (SA) architectures with novel spatial dataflows will be utilized, at a large scale, for energy-efficient LLM training and inference.
Application Deadline: 20/05/2025
4. Fully Funded PhD Position in Improve the Energy Sustainability of AI Data Centers in Future Energy System
Summary of PhD Program:
This cross-disciplinary PhD program in electrical engineering and computer science aims to develop real-time strategies for minimizing the carbon footprint of data centers. The research will optimize the jobs scheduling at large scale data center, addressing the challenge of managing high volumes of computational tasks required by large AI models. Advanced machine learning, optimization, and data analytics techniques will be explored to enable a more proactive response to the electricity supply profile, ensuring that data center operations are effectively integrated with the broader energy network.
Application Deadline: 01/09/2025
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5. Fully Funded PhD Position in Image Reconstruction using FPGA-based Generative AI
Summary of PhD Program:
The project aims at building accelerators based on Field Programmable Gate Arrays (FPGAs) and suitable to deliver computer vision tasks through Generative AI. Generative Adversarial Networks (GANs) based on Convolutional Neural Networks (CNNs) are promising candidates in this direction: they exploit adversarial learning and feature extraction to execute a multitude of applications, including image dataset generation, image-to-image translation, face frontalisation.
Application Deadline: 20/05/2025
6. Fully Funded PhD Position in High-fidelity laser tomography of flow fields via data assimilation
Summary of PhD Program:
This project will develop data assimilation for high-fidelity flow-field reconstruction using LAT. Data assimilation (DA) algorithms seek to solve the equations governing fluid motion subject to databased constraints. Instead of training an end-to-end neural network using simulated data, DA algorithms integrate ground-true physics, into the network, so call physics-informed neural network. Therefore, high-fidelity flow-field images are expected to be reconstructed by DA-assisted LAT. The student who joins our group will learn the fundamentals of laser absorption tomography, computational and data-driven solutions for inverse problems.
Application Deadline: 30/04/2025
7. Fully Funded PhD Position in Heat integration to provide whole system flexibility
Summary of PhD Program:
The project will investigate heat integration techniques across various levels of the energy system, including industrial processes, district heating networks, and residential heating solutions. Key areas of focus will include the integration of advanced thermal storage technologies, the utilisation of waste heat recovery, and the implementation of innovative heat pump technologies. This multi-scale approach ensures that the project addresses both high-grade industrial heat and low-grade residential heat requirements.
Application Deadline: 31/12/2025
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8. Fully Funded PhD Position in Hardware-accelerated flow-field measurement using laser absorption spectroscopy
Summary of PhD Program:
This project will develop hardware-accelerated laser absorption spectroscopy technology and apply it to industrial gas measurement. The student who joins our group will learn the fundamentals of laser spectroscopic sensing and hardware acceleration techniques, and will be trained for carrying out experiments in both labs and real industrial conditions. The student will have a high chance of working with renowned international researchers and industrial collaborators.
Application Deadline: 30/04/2025
9. Fully Funded PhD Position in From patients, for patients: developing organoids to advance chronic liver disease treatments
Summary of PhD Program:
This PhD project offers an exceptional opportunity to engage with leading experts in bio-engineering and hepatology at the University of Edinburgh. Development and analyses of MASLD in vitro models will be carried out at the Institute for BioEngineering, equipped with state-of-the-art experimental facilities (tissue culture labs, flow cytometry, microscopy, and microfluidic platforms). Collaborative support from specialist research centers will enhance capacities in cell metabolism, drug toxicology, and regenerative medicine.
Application Deadline: 08/04/2025
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10. Fully Funded PhD Position in Fouling Control of Water Treatment Membranes through Optimal and Sustainable Cleaning Strategies
Summary of PhD Program:
This PhD project will formulate tailored CiP strategies for membranes in Scottish Water (SW) treatment plants. The overarching goal is twofold: i) to identify the CiP temperature resulting in optimal membrane performance; ii) to identify CiP formulations (or mixtures thereof) suitable for application at ambient feed water temperatures (i.e., in cold water). Considering that CiP at SW membrane plants is often carried out at ambient water temperature (Tamb = 10 °C or lower), we anticipate significant improvements in cleaning efficiency if CiP were carried out at slightly higher temperatures.
Application Deadline: 22/06/2025
11. Fully Funded PhD Position in Engineering sex-differences to improve science
Summary of PhD Program:
This PhD project proposes an innovative exploration of how sex-specific differences in hormonal profiles and blood flow dynamics impact liver function, utilizing cutting-edge techniques involving liver organoids and microfluidic technology. Males and females differ significantly in their liver function and pathology, thought to be largely due to variations in hormonal environment and hemodynamics. Despite these observations, current approaches to elucidating these effects are limited, and rely heavily on expensive, time-consuming, and ethically challenging animal models and clinical trials.
Application Deadline: 04/02/2026
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12. Fully Funded PhD Position in Engineering Nanosensors Using Electrocrystallisation
Summary of PhD Program:
Fully-funded PhD studentship available on nanosensor engineering by electrocrystallisation with the opportunity to start immediately. The overall goal of the project is to create a platform technology for nanosensor scale up by understanding the nanoscale phenomena in electrodeposition. Electroanalytical and nanomaterials characterisation methods will be used to investigate the nucleation and crystal growth mechanisms of charge-transfer complexes (CTCs) on ultramicroelectrodes and nanoelectrode patterns.
Application Deadline: 31/03/2025
13. Fully Funded PhD Position in Elucidating molecular transport mechanisms through atomistic simulations
Summary of PhD Program:
Using molecular dynamics (MD) simulation and free energy calculations, this project aims to computationally design highly selective RO membranes by elucidating the mechanisms governing SNC sorption and transport. The project will focus on SNCs that are insufficiently rejected by state-of-the art RO membranes, e.g., boric acid, a toxic constituent of seawater, and N-nitrosodimethylamine (NDMA), a carcinogenic disinfection by-product whose insufficient removal during RO-based wastewater reuse (rejection ~ 60%) demands additional, and costly, advanced oxidation processes (e.g., high-energy UV).
Application Deadline: 22/06/2025
14. Fully Funded PhD Position in Electrolytes in Zinc ion Batteries
Summary of PhD Program:
This project focuses on the development and optimization of advanced electrolytes for high-performance zinc-ion batteries. Unlike lithium, zinc is abundant, non-toxic, and operates in aqueous environments, making it safer and more affordable. However, challenges such as zinc dendrite formation, limited electrolyte stability, and slow ion mobility need to be addressed for ZIBs to compete with LIBs in commercial applications.
Application Deadline: 24/11/2025
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15. Fully Funded PhD Position in Dropwise Condensation and heat transfer on Patterned Liquid-Like Surfaces
Summary of PhD Program:
Condensation is a heat transfer process in which a vapor releases energy/heat as it changes its phase to become a liquid, which typically occurs when the vapor is cooled below its dew temperature, often upon making contact with a cooler surface. This process is critical in numerous applications, including in HVAC systems, power generation, and refrigeration. The effectiveness of dropwise condensation in transferring heat makes it essential in condensers, where minimizing the surface area for dropwise condensation and optimizing conditions for heat transfer can significantly enhance system efficiency.
Application Deadline: 30/11/2025
16. Fully Funded PhD Position in Droplet Dynamics on Topographically Patterned Slippery Liquid-Infused Porous Surfaces
Summary of PhD Program:
The interaction of droplets with structured surfaces is extremely important in microfluidics, with target applications in medical diagnostics, self-assembly and printing. In this project you will study the dynamic interactions of droplets with structured solid surfaces coated by a thin liquid lubricant layer. Depending on your skills and interests, you will tackle questions about the fluid dynamics of this system using experimental/computational approaches, or a combination of both.
Application Deadline: 21/10/2025
17. Fully Funded PhD Position in Developing Lipid Nanoparticles for Immunotherapy
Summary of PhD Program:
The use of lipid nanoparticles (LNPs) as delivery systems has revolutionized biomedical applications, particularly in immunotherapy. LNPs can encapsulate and deliver therapeutic agents such as nucleic acids, proteins, and small molecules, enabling targeted treatment of diseases including cancer, autoimmune disorders, and infectious diseases. This PhD project, based at the forefront of immunotherapy research, aims to develop and optimize lipid nanoparticles to enhance their effectiveness as carriers for immunotherapeutic agents, improving immune responses and treatment outcomes.
