▎ 摘　　要

Calcium ferrite-graphene nanoplatelets nanocomposites with sheet-on-sheet like morphology are fabricated and investigated for their physicochemical characteristics, electrochemical energy storage capacity and photocatalysis. Interestingly, the (CF)(1-x) (GNPs)(x) nanocomposite-based electrode has shown maximum specific capacitance up to 422 Fg(-1) at 0.25 Ag--(1) with excellent cycling stability, 2.6 times higher than that of neat CF nanosheets. Furthermore, the synergistic contribution from photocatalytic and photo-Fenton reactions enables (CF)(1-x) (GNPs)(x) nanocomposites to offer superior photocatalytic activity (99.4% dye removal in 90 min). The inclusion of GNPs significantly enhances the charge carriers separation and transportation. The excellent electrochemical efficiency of (CF)(1-x) (GNPs)(x) could be attributed to the 2D interfacial interactions that provide a better charge transport at electrode/electrolyte interface. These interactions are also responsible for creating effective charge transport pathways and efficient e(-)/h(+) separation leading to rapid dye-degradation, which make the material potential for remediation of water pollution and energy storage systems.