At a Glance
- Tasks: Join a PhD programme to design advanced thermoelectric coolers for on-chip cooling.
- Company: University of Southampton, part of the prestigious Horizon Europe network.
- Benefits: Fully funded PhD, international exposure, and professional skills training.
- Other info: Exciting opportunity for career growth in an interdisciplinary research environment.
- Why this job: Make a real impact in cutting-edge cooling technology and collaborate across Europe.
- Qualifications: Master’s degree in relevant fields and strong analytical skills required.
The predicted salary is between 18000 - 25000 £ per year.
We have an exciting opportunity for a highly motivated doctoral candidate to join us for a fully funded PhD at the University of Southampton, working on the smart design of thermoelectric coolers for on-chip cooling. This studentship is offered as part of the prestigious Horizon Europe Marie Skłodowska-Curie Doctoral Network “MaGnesium Alloys for effICient solId stAte cooliNg (MGICIAN)”, a pan-European programme focused on advanced thermoelectric materials, devices, and system-level integration.
About MGICIAN: MGICIAN brings together academic and industrial partners across Europe and trains 15 Doctoral Candidates in materials development, interface engineering, module fabrication, and system integration. As a doctoral candidate, you will benefit from an integrated training programme combining academic research, industrial exposure, and international mobility, alongside structured training in transferable and professional skills.
Project Description: Based at the University of Southampton, this PhD project will focus on the development of advanced thermoelectric cooler designs for on-chip cooling applications within the MGICIAN Doctoral Network. The project will address model-based and data-driven design strategies to optimise thermoelectric cooler architectures using magnesium-based materials and modules developed in the consortium. Particular emphasis will be placed on improving cooling efficiency, thermal uniformity, dynamic response, and integration compatibility with modern microelectronic and photonic platforms. The project will combine numerical modelling, optimisation methodologies, and experimental validation to establish design-performance relationships and ensure scalability and application-oriented implementation of thermoelectric cooling solutions for next-generation compact electronic systems.
Research Tasks and Training Objectives:
- Develop numerical and data-driven models for thermoelectric coolers used in on-chip cooling applications
- Apply optimisation algorithms to improve cooling efficiency, thermal uniformity, and scalability
- Investigate design trade-offs between performance, footprint, and energy consumption
- Support the design and fabrication of thermoelectric coolers for localised chip-scale cooling
- Experimentally evaluate cooling performance, response time, and reliability
- Integrate modelling insights into device-level and system-level demonstrators within the network
- Collaborate closely with materials, module, refrigeration, and photonics-focused DCs
- Participate in secondments, network-wide scientific training, and transferable skills activities
- Disseminate research results through peer-reviewed publications, international conferences, and outreach initiatives
Required Qualifications:
Education: Master’s degree (or equivalent) in Electronic or Electrical Engineering, Mechanical Engineering, Applied Physics, Materials Science, or a closely related field.Technical Competences:
- Strong background in thermal management, thermoelectric systems, or numerical modelling
- Experience with simulation tools (e.g., COMSOL, FEM, MATLAB, or similar software)
- Knowledge of optimisation methods, data-driven modelling, or control strategies is advantageous
- Understanding of microelectronic or photonic device thermal behaviour is beneficial
- Interest in compact cooling technologies and high-performance electronic systems
Personal Skills:
- Strong analytical and quantitative problem-solving abilities
- Ability to work independently and within an international interdisciplinary research network
- Excellent written and spoken English
Marie Skłodowska-Curie Eligibility Criteria:
Applicants must fulfil the MSCA Doctoral Network eligibility rules: You must not have been awarded a doctoral degree at the time of recruitment. Mobility rule: at the time of recruitment, you must not have resided or carried out your main activity (work or studies) in the UK for more than 12 months in the 3 years immediately prior to recruitment (short stays such as holidays are excluded).
Please note that, upon appointment, the successful candidate’s post title will be “MSCA Doctoral Network Research Fellow.” Apply by 11.59 pm UK time on the closing date. For assistance contact Recruitment on +44(0)2380 592750 or recruitment@soton.ac.uk.
Marie Sklodowska Curie Doctoral Network Fellow MGICIAN in Southampton employer: Cyber Security Academy Southampton
The University of Southampton offers an exceptional environment for doctoral candidates, providing a fully funded PhD opportunity within the prestigious Marie Skłodowska-Curie Doctoral Network. With a strong emphasis on academic research, industrial exposure, and international collaboration, you will benefit from a comprehensive training programme that fosters both personal and professional growth. The vibrant work culture encourages innovation and teamwork, making it an ideal place for aspiring researchers to thrive in the field of advanced thermoelectric materials.
Contact Details:
Cyber Security Academy Southampton Recruitment Team
StudySmarter Expert Advice🤫
We think this is how you could land Marie Sklodowska Curie Doctoral Network Fellow MGICIAN in Southampton
✨Tip Number 1
Network like a pro! Reach out to current or past doctoral candidates in the MGICIAN network. They can give you insider tips and maybe even put in a good word for you. Plus, it shows your genuine interest in the programme!
✨Tip Number 2
Prepare for interviews by diving deep into thermoelectric systems and the specific challenges they face. Be ready to discuss how your skills can tackle these issues. We want to see your passion and knowledge shine through!
✨Tip Number 3
Showcase your projects! If you've worked on relevant research or have experience with simulation tools like COMSOL or MATLAB, make sure to highlight that. We love seeing practical applications of your skills!
✨Tip Number 4
Don’t forget to apply through our website! It’s the best way to ensure your application gets the attention it deserves. Plus, we’re here to help if you have any questions along the way!
We think you need these skills to ace Marie Sklodowska Curie Doctoral Network Fellow MGICIAN in Southampton
Some tips for your application 🫡
Tailor Your CV:Make sure your CV is tailored to highlight your relevant experience and skills for the PhD position. We want to see how your background in thermal management or numerical modelling aligns with the project goals.
Craft a Compelling Cover Letter:Your cover letter should tell us why you're passionate about thermoelectric systems and how you can contribute to the MGICIAN network. Be genuine and let your enthusiasm shine through!
Showcase Your Technical Skills:Don’t forget to mention any experience with simulation tools like COMSOL or MATLAB. We’re looking for candidates who can hit the ground running, so highlight those technical competences clearly.
Apply Through Our Website:To make sure your application gets to us without a hitch, apply directly through our website. It’s the best way to ensure we receive all your documents and can review them promptly!
How to prepare for a job interview at Cyber Security Academy Southampton
✨Know Your Stuff
Make sure you brush up on your knowledge of thermoelectric systems and the specific technologies mentioned in the job description. Familiarise yourself with simulation tools like COMSOL or MATLAB, as well as optimisation methods. This will show that you're not just interested but also well-prepared.
✨Show Your Passion
Express your enthusiasm for compact cooling technologies and high-performance electronic systems during the interview. Share any relevant projects or experiences that highlight your interest in this field. A genuine passion can set you apart from other candidates.
✨Prepare Questions
Have a few thoughtful questions ready to ask your interviewers about the MGICIAN network and the specific PhD project. This demonstrates your engagement and curiosity about the role and the collaborative environment you'll be part of.
✨Practice Your Communication Skills
Since excellent written and spoken English is crucial, practice articulating your thoughts clearly and concisely. You might even want to do a mock interview with a friend or mentor to get comfortable discussing your qualifications and experiences.
