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- Tasks: Join a PhD project focused on designing advanced thermoelectric coolers for on-chip applications.
- Company: University of Southampton, part of the prestigious MGICIAN Doctoral Network.
- Benefits: Fully funded PhD, international exposure, and structured training in transferable skills.
- Why this job: Make a real impact in cutting-edge cooling technology while collaborating with top researchers across Europe.
- Qualifications: Master’s degree in relevant fields and strong analytical skills required.
- Other info: Exciting opportunity for career growth in an interdisciplinary research environment.
The predicted salary is between 18000 - 25000 ÂŁ 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: The Doctoral Candidate Will:
- 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)
How To Apply: Applications must be submitted exclusively via the official MGICIAN project website here where details are provided. Please note that, upon appointment, the successful candidate’s post title will be "MSCA Doctoral Network Research Fellow".
Marie Sklodowska Curie Doctoral Network Fellow MGICIAN in Southampton employer: University of Southampton
Contact Detail:
University of Southampton Recruiting 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
Get your research game on! Familiarise yourself with the latest advancements in thermoelectric systems and magnesium-based materials. Being able to discuss recent findings during interviews will definitely set you apart from the crowd.
✨Tip Number 3
Practice makes perfect! Prepare for potential interview questions by doing mock interviews with friends or mentors. Focus on articulating your experience with numerical modelling and optimisation methods clearly and confidently.
✨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, it keeps everything organised and straightforward for us and you!
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 excited about this opportunity and how you can contribute to the MGICIAN network. Be genuine and let your passion for thermoelectric systems 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 any relevant projects or coursework.
Apply Through Our Website: Remember, applications must be submitted via the official MGICIAN project website. It’s super easy, and we can’t wait to see your application come through!
How to prepare for a job interview at University of Southampton
✨Know Your Stuff
Make sure you brush up on thermoelectric systems and numerical modelling. Familiarise yourself with the latest advancements in magnesium-based materials and cooling technologies. Being able to discuss these topics confidently will show your genuine interest and expertise.
✨Showcase Your Skills
Prepare to talk about your experience with simulation tools like COMSOL or MATLAB. Have specific examples ready that demonstrate how you've applied optimisation methods or data-driven modelling in past projects. This will help you stand out as a candidate who can hit the ground running.
✨Ask Smart Questions
Come prepared with insightful questions about the MGICIAN network and the specific PhD project. Inquire about collaboration opportunities with other doctoral candidates or how the training programme integrates academic research with industrial exposure. This shows you're engaged and thinking ahead.
✨Be Yourself
While it's important to be professional, don't forget to let your personality shine through. The interviewers want to see if you'll fit into their team and culture. Share your passion for compact cooling technologies and how you envision contributing to the project and the wider research community.