Institute for Applied Materials – Energy Storage Systems (IAM-ESS)
Area of research:
The public acceptance of electromobility is still limited due the high costs and the unfavorable carbon footprint of the production process for lithium ion batteries. One reason for this is the application of organic solvents at the manufacturing of electrodes, which make cost-intensive measures for worker protection, explosion prevention or emission control indispensable. Replacing the organic solvent-based with a water-based process would be a large step to a more sustainable and cost-reduced manufacturing process. However, the substitution of the organic solvent by water is challenging, since water interferes with many materials and levels of the production chain in a different way. One necessary adjustment concerns the binders used, since the polyvinylidene fluoride (PVDF) binder established in the organic environment is not water-soluble. However, in the form of a latex dispersion, the material appreciated for its excellent chemical, thermal and electrochemical stability can be applied to an aqueous environment.
The goal of the thesis is to gain a fundamental understanding of the effects of using aqueous PVDF latex binders for the production of lithium ion batteries. This includes the investigation of slurry properties, the impact on electrode manufacturing and cell performance. Special emphasis should be given on the identification and controlling of the interactions of water and binder with the various electrode components. Further tasks comprise the characterization of the electrode structure and the determination of the aging behavior.
We offer you the opportunity to complete the promotion within three years. During this time, you will work in an interdisciplinary working group and you will have access to the excellent research infrastructure and experimental facilities at KIT. The work will be performed in cooperation with Arkema, a French global chemistry company among worldwide leader for high-performance materials, including for batteries, giving you good insights into the industrial aspects of electrode production too.
You have a university degree (Diploma (Uni) / Master) in materials science, chemistry or process engineering. Experience in the field of electrochemistry is desirable, additional knowledge in the field of processing of ceramic materials of advantage.
befristet auf 3 Jahre
Application up to
Oct, 18, 2019
Contact Person in line Management
For further information, please contact Dr. Werner Bauer, e-mail: firstname.lastname@example.org / phone +49 721 608 22990.