Funded Phd Studentship In Energy-Efficient, Anti-Bacterial Coatings For Electric Car Air Conditioning

Details of the offer

Ref Number B04- Professional Expertise Research and Research Support Department UCL BEAMS (B04) Location London Working Pattern Full time Salary See advert text Contract Type Fixed-term Working Type Hybrid Available for Secondment No Closing Date 13-Nov- Project details How to apply:Please do not apply on the UCL jobs page - your application will not be considered.
Applications must be made by using the .
Please mark it to the attention of Prof Ioannis Papakonstantinou.Title: Nano-Solutions for Tomorrow's Vehicles: Energy-Efficient, Anti-Bacterial Coatings for Electric Car Air Conditioning in collaboration with Jaguar Land Rover.Duration of study: Full time - 4 years fixed termStarting date: Available from December, February and May each year.Application deadline: No closing date, the position will remain open until a suitable candidate is found.Primary Supervisor: Prof Ioannis Papakonstantinou, Professor of Photonics and Nanofabrication, Head of Photonic Innovations Lab, Department of Electronic and Electrical Engineering, University College London (UCL).Secondary Supervisor: Dr Martyna Michalska, Department of Mechanical Engineering and UCL East, University College London (UCL).
Prof Manish Tiwari, Professor of Nanoengineering, Department of Mechanical Engineering.
Project description This PhD project aims to design and develop multifunctional nanosurfaces tailored for advanced automotive applications in partnership with Jaguar Land Rover (JLR).
The focus will be on creating innovative surface treatments for the air-conditioning (AC) units in vehicles to address efficiency, safety, and comfort challenges.Currently, automotive AC heat pumps operate at suboptimal temperatures (around -18°C), leading to efficiency losses due to water condensation and ice formation.
This project will develop anti-fogging and anti-icing surfaces that can perform reliably down to -25°C, potentially improving energy efficiency and reducing strain on electric vehicle batteries or lowering CO2 emissions in combustion engine vehicles.
Additionally, by minimizing water accumulation inside the AC unit, the project aims to reduce bacterial growth that can introduce unpleasant odours and health risks within the cabin.
Surfaces with antibacterial properties will thus be another essential target.The research will focus on polymer-based nanosurfaces that combine antifogging, anti-icing, and antibacterial functionalities.
In addition to fabrication, the PhD student will conduct accelerated testing and other rigorous performance evaluations to quantify the energy savings, durability, and user comfort enhancements these surfaces may offer.This project will utilize cutting-edge cleanroom facilities at the London Center for Nanotechnology (LCN), along with the photonic innovations lab, the facilities in Mechanical Engineering and our new laboratories at UCL East.
The student will also conduct research at the cutting-edge laboratories of JLR.
The student will have unique opportunity to collaborate with a leading automotive company on technologies that hold real-world potential, with hands-on experience in both advanced research and industry-relevant applications.
Funding This is an EPSRC funded studentship.
Please read the fee details carefully here:EPSRC Doctoral Training at UCL - Prospective Students | UCL EPSRC Doctoral Training - UCL – University College LondonStudents will receive a £21,/year stipend for living costs increasing with inflation as well as a top-up contribution towards travel and consumables.More details about the stipend and fees can be found here: Application details Applications must be made using the UCL online application system by using the UCL postgraduate study application form.
Please mark it to the attention of Prof Ioannis Papakonstantinou.Qualifications required: Candidates should have or expect to achieve an excellent degree(s) in Electronic Engineering, Materials Engineering, Chemistry, Physics, or a related discipline.
The ideal candidate would have experience in and passion for one or more of the following: Materials engineering, nanotechnology, device physics, chemistryUnderstanding of materials characterisationInterest in nano-biointerfacesAbility to analyse data The candidate should pass the entry requirements of PhD programme at UCL EEE: Our commitment to equality, diversity and inclusion Our research is driven forward by talented researchers and PhD students who come from countries and backgrounds across the globe.
We therefore strongly encourage applications from underrepresented backgrounds in engineering, such as women, ethnic minorities, or people with disabilities.
EEE at UCL is a great place for you to study.
We will make reasonable adjustments at interview and/or in the position as requested.


Nominal Salary: To be agreed

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