Discover fully funded PhD programs at the University of Exeter, England. Please take the next step in your academic journey with our diverse opportunities.
Might it be said that you hold a graduate degree and are searching for fully funded PhD positions? College of Exeter, Britain welcomes online applications for different funded PhD Projects/ fully funded PhD positions in different research areas.
Candidates interested in fully funded PhD positions can look at the subtleties and may apply straightaway. Intrigued and qualified candidates might present their web-based application for PhD programs through the College’s Internet-based Application Gateway.
5 Fully Funded PhD Programs in England
Here is the list of 5 Fully Funded PhD Programs at the University of Exeter, England
1- Advancements in Imaging and AI for Antimicrobial Resistance
This PhD project will use single-cell imaging and artificial intelligence (AI) approaches to detect antimicrobial resistance within bacterial populations that cause life-threatening infections such as Pseudomonas aeruginosa and Staphylococcus aureus (Orazi et al. mBio 2019).
You will apply state-of-the-art, machine learning methods (deep neural networks and evolutionary algorithms) on big data from thousands of individual bacterial (Lapinska et al. eLife 2022) to extract information on the efficacy of antibiotics against bacterial populations and rapidly predict antimicrobial resistance.
Moreover, by using omics, Bioinformatics, and AI software, such as AlphaFold, you will identify novel and more effective antibiotics that will allow you to overcome antimicrobial resistance. Therefore, this PhD offers a unique opportunity to gain cutting-edge expertise in AI, while addressing a daunting threat for our society.
Application Deadline: 21st August 2024
2- Exploring Cell-Type Specific Effects in Dementia
The term “Lewy body dementia” (LBD) is often used to refer to a class of diseases, including dementia with Lewy bodies and dementia due to Parkinson’s disease which are characterized by abnormal aggregation and deposition of αsynuclein (aSyn) in the affected regions of the brain. LBD has no known cure. Somewhat explaining this fact is that we do not fully understand how these diseases work.
In recent years, it has become apparent that inflammation in the brain contributes to the progression of dementia, and strategies to treat dementia by reducing inflammation are under investigation. P2X7R is a receptor that is predominantly expressed by non-neuronal cells in the brain and that is considered a master regulator of brain inflammation. This project will explore the contribution of P2X7R to Lewy body dementia.
Application Deadline: 12th August 2024
3- Fully Funded PhD Position in Unravelling Atrial Fibrillation Complexity
Atrial fibrillation (AF) is one of the most common types of heart rhythm disorders, which have considerable morbidity and mortality rates [1]. However, individuals show a wide range of clinical presentations and responses to treatment, underlining the importance of improving understanding of AF diversity [2]. This interdisciplinary project plans to view the comprehensible landscape of AF by combining modern statistical methods with machine-learning approaches.
Innovative analytical frameworks will be applied in this study to disentangle diverse AF subtypes as well as their underlying disease mechanisms through the use of electrophysiology (EP) clinical data sourced from Liverpool Centre for Cardiovascular Science, Liverpool Heart and Chest Hospital NHS Foundation Trust and big data pools such as TriNetX and UK Biobank.
Application Deadline: 25th August 2024
4- Applying for a Fully Funded PhD Position Integrating Raman Scattering in Research
The venture intends to foster an original innovation that blends the reciprocal capacities of Raman and intelligent Raman dispersing microscopy. Raman and cognizant Raman dispersing (CRS) are both high-level optical logical methods utilized for many materials and medical services advancement research.
Raman gives definite atomic data in light of the otherworldly mark of photons inelastically dissipated by sub-atomic vibrations. Interestingly, CRS microscopy utilizes ultrafast laser heartbeats to drive nonlinear light-matter communications to improve the sign from a particular vibrational recurrence to give continuous mark-free picture contrast given the force of a solitary Raman band.
Application Deadline: 19th August 2024
5- Fully Funded PhD Position in Video Understanding in First-Person Vision
Occasion acknowledgment in recordings has arisen as quite possibly one of the most powerful regions in PC vision. Scientists have broadly investigated many subjects, from perceiving straightforward, transient activities like running and strolling, to complicated, long-haul multi-specialist occasions like surgeries or cooperative errands.
Ordinarily, long recordings comprise of different activities, each made out of sub-activities with changing spans and arrangements. Motivated by the regular mental course of breaking down complex occasions into more modest sub-occasions, this task intends to propel the parsing of activity recordings, with a particular spotlight on first-individual vision.
Application Deadline: 16th August 2024
