Don't miss our weekly PhD newsletter | Sign up now Don't miss our weekly PhD newsletter | Sign up now

  Rejuvenating Lithium-Ion Battery Life through Data-Driven Prediction for Timely Refurbishment (RELIFE)


   Birmingham and BAM Joint PhDs

This project is no longer listed on FindAPhD.com and may not be available.

Click here to search FindAPhD.com for PhD studentship opportunities
  Dr P Anderson  No more applications being accepted  Funded PhD Project (European/UK Students Only)

About the Project

The University of Birmingham's College of Engineering and Physical Sciences (UoB EPS) and the German Federal Institute for Materials Research and Testing (Bundesanstalt für Materialforschung und -prüfung, BAM) are offering co-funded PhD studentships, giving PhD candidates in chemical engineering, chemistry, and materials engineering subjects the opportunity to study alongside world-leading academics.

BAM is a world-leading centre of excellence for “Safety in technology and chemistry” with responsibility to the German Federal Ministry for Economic Affairs and Climate Action. Uniquely positioned at the interface of science, technology, industry and policymaking, BAM integrates research, assessment and consultation within its five focus areas Analytical Sciences, Materials, Energy, Environment and Infrastructure, providing a crucial contribution to the technical safety of products and processes, development of industry and society.

The University of Birmingham (UK) is a leading comprehensive research institution, distinguished by the breadth and exceptional quality of its research. Established in 1900, the University has been pursuing and sharing knowledge through outstanding teaching and world-leading research. We are the original ‘redbrick’ University, part of the prestigious Russell Group; our thriving student population enjoys a wide range of courses, and exceptional campus and research facilities.

 BAM and UoB established a bilateral strategic partnership in 2018 that has delivered thriving, exciting and innovative research in the fields of Chemistry, Energy, Additive Manufacturing and Environmental Sciences.

These studentships are aligned with BAM’s research priorities, providing students with an opportunity to contribute directly to the safety of strategic technologies. Each student will benefit from co-supervision by a senior BAM scientist who will work closely with the UoB academic supervisor to maximise the value of the joint studentship.

 Each PhD student will spend 21 months at UoB and 21 months at BAM (located in Berlin). This will allow students to utilize both UoB´s and BAM´s formidable facilities, and to enhance the research through access to the holistic network of senior researchers at both institutions. 

Applications are invited for the following Project:

Rejuvenating Lithium-Ion Battery Life through Data-Driven Prediction for Timely Refurbishment (RELIFE)

UoB Supervisor and School:

Prof. Paul Anderson, https://www.birmingham.ac.uk/staff/profiles/chemistry/anderson-paul.aspx, Prof. Peter Slater, https://www.birmingham.ac.uk/staff/profiles/chemistry/slater-peter.aspx, School of Chemistry

BAM Supervisor and Division:

Dr. Jens Riedel, Division 1.3. Instrumental Analytics

 Short Summary:

Lithium-ion batteries (LIBs) power our world, but their limited lifespan and recyclability pose severe economic and environmental challenges. This project will tackle these issues by developing an unprecedented understanding of how the distribution of elements contained in LIBs evolves during fabrication, battery use and end-of-life (EoL) treatment to inform predictive models for optimal timing of the recovery and reuse of LIB materials.

 Instead of prioritizing performance or longevity of LIBs, the project aims to identify material combinations that can be effectively refurbished/recycled on a modular level without energy intensive purification of the ingredient elements. This goal will be pursued by comprehensive multiscale chemical imaging of the distribution of mobile (light) elements like fluorine and lithium, as well as the coordination and oxidation state of the localized (heavier) metals within the electrodes. These experiments will be repeated on various batteries at controlled stages of their respective lifecycles, and correlated to inform a predictive modular recycling strategy, in which the optimum point to end use and commence recycling can be identified.

 The project's success will have a transformative impact, by promoting sustainable battery management practices and reducing the environmental footprint of LIB production and disposal, while improving the profitability of recycling.

Eligibility Criteria

The entry requirements are either:

-              An upper second-class honours undergraduate degree in a relevant subject.

-              An MSc/MRes/MEng in a relevant subject.

How to Apply

Applicants must choose a project listed above and make their application through the Application Portal. Applicants are encouraged to contact prospective supervisors informally to discuss the project. Applications should include a statement of research interests. Please detail the supervisor and project title under the Research Information section of the application form. For further information on how to apply please visit https://www.birmingham.ac.uk/study/postgraduate/research/how-to-apply/advertised-phd

Chemistry (6)

Funding Notes

Value of Award
A fully funded studentship is available for students on this PhD programme for October 2024 start. During their time at UoB, students will receive a UKRI-rate Doctoral Stipend. During their time at BAM, students will receive a regular work contract .

Where will I study?

Search Suggestions
Search suggestions

Based on your current searches we recommend the following search filters.