Acid Modified Graphite Felt Cathode Electrode for Low Temperature H2/Br2 Redox Flow Battery

Abstract

In this study, the performance of a modified PAN based graphite felt, an alternative electrode for cathode, was investigated for hydrogen/bromine flow battery. In these experiments, carbon paper was used as porous transport layer in the anode and graphite felt (GF) was used as the catalytically active electrode in the cathode. Graphite felt electrode used for cathode is also used in industry as thermal insulation material. The cathode kinetics of this relatively low-cost material was increased by acidic modification and used in flow battery cathode electrodes. To create functional groups on the cathode electrode, acidic surface modification of the graphite felt was carried out with H2SO4 and HNO3 acid pairs with a volumetric ratio of VH2SO4 / VHNO3 = 3:1. XRD and SEM analyzes were used for physical characterization of the modified graphite felt electrodes. Single cell potentiostatic polarization and power curves of the hydrogen/bromine flow battery were obtained to elucidate the effect of cathode graphite felt surface modification. In this study, comparison tests were performed for pristine graphite felt and modified graphite felt. The maximum powers detected from the single cell flow battery formed by pristine graphite felt and modified graphite felt cathode electrodes are 0.32 W/cm2 (0.65V) and 0.40 W/cm2 (0.65V), respectively. In flow battery tests, this 25% power increase in similar voltage values may be attributed to the improvement of the weak electrochemical properties of the graphite felt electrode by acidic modification. © 2020 MIM Research Group. All rights reserved.