**Job Description**
This fully funded doctoral subproject, part of the Marie Skłodowska-Curie European training Network “SPACER”, will be conducted at Fraunhofer ICT with Ph.D. supervision at the University of Bayreuth over a period of 36 months. The SPACER network aims to develop new architectures for porous electrodes to improve the power density and energy efficiency of redox flow batteries (RFB) through hierarchical structures, enabling affordable and durable long-duration energy storage. The specific goal of this doctoral thesis is to apply various surface modification procedures, such as electrochemical wet treatment, covalent bonding, and targeted surface functionalization, to carbon electrode materials. The recruited researcher will investigate the influence of these treatments on the surface and electrochemical properties of carbon electrodes to better understand vanadium electrode reactions, which are fundamental to vanadium flow battery chemistry, and to potentially reduce battery costs through material optimization. Developed procedures for carbon surface modification will be upscaled to meso-scale for testing in laboratory battery prototypes.
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