▎ 摘　　要

Due to the lethargic kinetics, the oxygen evolution reaction (OER) requires a high anodic voltage, restricting the efficiency as well as practical applications for electrochemical water splitting. For this purpose, metal oxides (M -O) are viewed as a potential competitor in this search because of their high redox potential. Still, their low conductivity and instability are two significant barriers that must be addressed. In this study the nanocomposite of NiAl2O4 with graphene oxide (GO) as a highly effective and long-lasting electrocatalyst for OER has been fabricated. In an alkaline (1.0 M KOH) medium, the GO/NiAl2O4 responds to a very sharp overpotential of 219 mV at a current density of 10 mA/cm2 and with a lower value of tafel slope (43 mV/dec) as compared to its counterparts. The GO/NiAl2O4 corresponds to the high stability of 18 h with retained crystal structure and morphology. For the expected prolonged OER process, we assume the active redox couple due to the presence of Ni thorn 2/ thorn 3 metal in NiAl2O4 varies periodically. Furthermore, the synergistic effect of NiAl2O4, com-bined with the GO, facilitates the dynamics of O2 evolution as a final product, and are useful for further applications in future era.(c) 2022 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.