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We have 41 Electronic Engineering PhD Projects, Programmes & Scholarships in London
Electronic Engineering PhD Projects, Programmes & Scholarships in London
We have 41 Electronic Engineering PhD Projects, Programmes & Scholarships in London
PhD candidates in Electronic Engineering research the electronic components such as semiconductors, resistors and inductors, and the devices they power. Electronic systems are near-ubiquitous in in modern industry, and your research could help promote developments in a wide range of sectors including communications, computing, healthcare, energy and transport.
What’s it like to study a PhD in Electronic Engineering?
Working under the guidance of an expert supervisor or supervisory team, you’ll work towards completing a thesis that will make an original contribution to the field of Electronic Engineering. You will likely divide your time between lab-based research, supervision meetings and writing your thesis. Many universities also offer departmental training in areas such as research methodologies and presentation skills.
Possible research areas include:
- Nanoelectronics
- Electromagnetic fields
- Photonics
- Semiconductor electronics
- Antennas, radar and navigation
- Optical materials and devices
Your research may involve collaboration with academics from other departments, or with industrial partners. You also may have the opportunity to connect with the wider academic community through attending conferences and publishing papers.
Most PhDs in Electronic Engineering are pre-designed, but some universities may accept applications for self-proposed projects. If you are planning to design your own research proposal, it will need to align with the research priorities of the department and the expertise of your prospective supervisor.
PhD in Electronic Engineering entry requirements
The minimum entry requirement for a PhD in Electrical Engineering is usually a 2:1 undergraduate degree in a relevant subject area such as Engineering, Computer Science, Physics or Material Science, although a Masters may sometimes be required. You may occasionally be able to gain entry onto an Electrical Engineering PhD with a lower-class degree if you have a Masters and/ or relevant work experience.
PhD in Electronic Engineering funding options
The main body funding Electronic Engineering PhDs in the UK is the Engineering and Physical Sciences Research Council (EPSRC). Most projects have funding attached, meaning that you’ll automatically be awarded tuition fee coverage, a living cost stipend, and a research grant if you are accepted onto the programme.
Some students may propose their own research topic or apply for a project without attached funding (though this is less common). It may be possible to self-fund your PhD by combining the UK government’s doctoral loan with additional sources of funding such as support from your university or from a charity or trust.
PhD in Electronic Engineering careers
Career opportunities in Electronic Engineering are wide-ranging. Expertise is in demand in cutting-edge industries including cybersecurity, blockchain and BitCoin, as well as the sectors that make day-to-day modern life possible such as transport, energy and manufacturing.
You may also choose to continue your academic career, for example by applying for a postdoc that eventually leads to a permanent research position.
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Fully funded 4 year EPSRC PhD studentship in Optical Clock Synchronisation for Sub-Nanosecond Accuracy Time Synchronised Radio Access Networks
Duration of study: Full time - four years fixed term. Starting date: Flexible, to start by September 2023. Application deadline: Monday 24th April 2023 (or until filled). Read more
Fully funded PhD scholarship in Optical Networks for Machine Learning Systems
Duration of study: Full time – 3.5 years fixed term. Starting date: Flexible, to start by September 2023. Application deadline: No closing date, the position will remain open until a suitable candidate is found. Read more
PhD Studentship: Control methods for reliable sensing information in interconnected energy systems
Title: Control methods for reliable sensing information in interconnected energy systems. Duration of study: Full Time four-years fixed term. Read more
Use of Large Language Models (LLM) as a Structural Engineering Design Assistant
Large Language Models such as Chat GPT3 represent a significant development in artificial intelligence and its impact on society. Read more
Last chance to apply
Vision-based robotic grasping and manipulation for future on-orbit operations
Future in-orbit space missions and operations will involve servicing and repairing satellites, assembling large infrastructure such as a solar power station, deploying assets for scientific investigation such as a space telescope, and capturing and retrieving space debris, etc. Read more
Masters & PhD in Connected Electronic and Photonic Systems at UCL and Cambridge
University College London
Centre for Doctoral Training in Connected Electronic and Photonics Systems
4-year EPSRC funded studentships (fees and stipend) are available for eligible applicants. This 4-year programme is delivered by the EPSRC Centre for Doctoral Training in Connected Electronic and Photonic Systems (CEPS CDT), a joint centre between UCL and University of Cambridge. Read more
UCL SECReT: The International Training Centre for Security and Crime Research Degrees
UCL's Security Science Doctoral Research Training Centre (UCL SECReT) was founded in 2009 with support from the Engineering and Physical Sciences Research Council (ESRC) and an array of public and private sector organisations working in crime reduction security and law enforcement. Read more
Intelligent, Interpretable and Adaptive Design of Steel Structures using Deep Learning and NLP
The overall aim of this research is to develop a smart design assistant which is able to intuitively perform the design of complex steel structures to Eurocode Standards. Read more
EPSRC Centre for Doctoral Training in Compound Semiconductor Manufacturing
Compound Semiconductor (CS) materials are a Key Enabling Technology at the heart of modern society. Read more
Pattern Reconfigurable Antennas for future wireless communication sys
Wireless communication systems expanding at a very high rate with high capacity requirements. Social media applications and life style choices have resulted in very high data rates. Read more
Next generation aeroacoustically and aerodynamically efficient aerofoil
Applications are sought for a self-funded PhD student to undertake a 36-month research into fan broadband noise reduction at Brunel University London. Read more
Can AI based robot car win the race?
A modern Formula 1 race is a breathtaking display of engineering precision. Yet the popularity of the sport arguably has less to do with the performance of the cars than with the skill and daring displayed by the drivers as they push those cars to the limit. Read more
Explainable prediction modelling for early detection of risks in multiple long-term conditions using health records data
Multiple Long-Term conditions (MLTC) are a major healthcare challenge associated with high service utilization and expenditure. In the project, the candidate will help develop robust and explainable AI methods for MLTC risk prediction. Read more
Machine learning for natural language modelling and processing
Text and language processing is of great importance in many applications where an intelligent system is required to understand language and respond to queries. Read more
Metasurfaces for smart environments
Metasurfaces consist of a planar array of subwavelength-spaced and electrically small particles, whose EM properties can be locally controlled to tailor the overall reflected/transmitted field. Read more
