⛔ This position is no longer available.
University: University of Bath
Country: United Kingdom
Deadline: 2025-04-27
Fields: Electronic Engineering, Materials Science, Bioengineering, Biomedical Engineering, Neurotechnology
Are you passionate about advancing the frontiers of electronic materials and eager to make a tangible impact in the biomedical field? If you aspire to bridge the gap between cutting-edge electronics and medical innovation, this fully funded PhD position in Organic Electronics for Bioelectronic Medicine at the University of Bath could be the perfect opportunity for you.
About the University or Research Institute
The University of Bath, located in the historic city of Bath in southwest England, is renowned for its world-class research and vibrant academic community. Consistently ranked among the UK’s top universities, Bath is celebrated for its strong emphasis on science and engineering, outstanding teaching, and collaborative research environment. The Department of Electronic and Electrical Engineering is particularly noted for pioneering research in advanced materials and device engineering, offering students access to state-of-the-art laboratories and a supportive, multidisciplinary network of experts. Situated in a UNESCO World Heritage city, the University of Bath provides an inspiring setting for academic and personal growth, with excellent resources and a lively campus life.
Research Topic and Significance
This PhD project focuses on organic electronic devices for bioelectronic medicine, an interdisciplinary field at the interface of electronics, materials science, and biomedical engineering. The central aim is to design and engineer next‑generation organic electronic platforms capable of forming high‑fidelity, stable interfaces with biological tissue. Particular emphasis is placed on neurotechnology, with the development of devices that can directly and selectively communicate with neural tissue for neural sensing and neuromodulation.
Leveraging the intrinsic advantages of organic electronic materials, including mechanical flexibility, mixed ionic–electronic conductivity, biocompatibility, and tunable physicochemical properties, the project targets device concepts well suited for chronic neural interfacing, implantable systems, and minimally invasive bioelectronic therapies. By advancing organic device architectures and elucidating their interaction with neural tissue, this research bridges materials science and electrical engineering with translational bioelectronic applications, enabling new strategies for personalised neuromodulation, treatment of neurological disorders and cancer, and clinically relevant diagnostic technologies.
Project Details
The PhD position is based in the Department of Electronic and Electrical Engineering at the University of Bath, under the supervision of Dr. Dimitrios Koutsouras, a lecturer with expertise in organic electronics and bioengineering. The project sits at the interface of organic electronics, bioelectronics, and neurotechnology, offering a unique opportunity to work on fundamental materials science while directly contributing to biomedical innovation.
Candidates will benefit from access to advanced research facilities, interdisciplinary collaboration with leading scientists, and the vibrant academic culture of the University of Bath.
Candidate Profile
This position is ideal for highly motivated individuals with a strong background in one or more of the following areas:
– Electronic Engineering
– Materials Science
– Biomedical Engineering
– Physics
– Chemistry
Successful applicants should demonstrate a keen interest in interdisciplinary research, particularly at the intersection of electronics and biology. Strong analytical skills, laboratory experience, and a collaborative mindset are essential. The project is especially suited to candidates who are passionate about translating fundamental research into practical biomedical applications and who thrive in a dynamic, research-driven environment.
Application Process
Eligibility for this position is restricted to UK Home students only. The application deadline is Monday, 27 April 2025.
If you are interested or would like to discuss the project informally, please contact directly Dr. Dimitrios Koutsouras. Email: dk2156@bath.ac.uk.
Conclusion
This is an exceptional opportunity to contribute to the rapidly evolving field of bioelectronic medicine at one of the UK’s leading research universities. If you are driven to make a difference in healthcare through innovative electronic materials and devices, consider applying for this prestigious PhD position at the University of Bath. Stay tuned for similar opportunities and explore how your academic journey can shape the future of medical technology.
Questions & Answers
Question: What makes the University of Bath a strong choice for engineering research?
The University of Bath is known for its excellence in engineering and science, offering cutting-edge facilities, a collaborative research environment, and a reputation for producing high-impact research. Its location in Bath also provides a unique blend of historic charm and modern academic resources.
Question: Why is organic electronics important for biomedical applications?
Organic electronics offer flexibility, biocompatibility, and customizable electrical properties, making them ideal for interfacing with biological tissues. They enable the development of advanced medical devices that can improve diagnostics, monitoring, and therapy.
Question: Who is eligible to apply for this PhD position?
The position is open exclusively to UK Home students, as specified in the advertisement.
Question: What kind of research skills will I gain from this PhD?
Students will develop expertise in organic electronic device fabrication, advanced material and device characterization, and electrical and electrochemical measurements in biological environments. The PhD provides hands‑on experience with in vitro and in vivo experimental platforms, enabling the investigation of device–tissue interactions under physiologically relevant conditions. Students will also gain strong interdisciplinary research skills, working across engineering, materials science, and biomedical sciences.
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