Superior electrochemical water oxidation of novel NiS@FeS2 nanocomposites

Abstract

Abstract NiS, FeS2 and NiS@FeS2 nanocomposites were optimally synthesized by employing solvothermal method. Prepared nanocomposites were confirmed by X-ray diffraction spectra (XRD) by obtaining strong diffraction correspond to rhombohedral and orthorhombic phase of NiS and FeS2 respectively. A well defined Raman active mode of vibrations obtained around 337, 477 and 543\u202fcm−1 revealed for NiS@FeS2 nanocomposites. Metal sulphide vibrations such as Ni–S and Fe–S were confirmed by Fourier transform infrared spectra (FTIR). The morphological determination and the tiny particles combination was revealed by scanning electron microscopy (SEM) and transmission electron microscopy (TEM) studies. The superior performance of NiS@FeS2 nanocomposites towards electrochemical water oxidation has been observed from cyclic voltammogram (CV) and linear sweep volttammogram (LSV) results. The higher current density of 399\u202fmA/g was achieved for the optimized NiS@FeS2 nanocomposites at 10\u202fmV/s scan rate with very low Tafel slope value of 63 mV/dec. Furthermore, 12\u202fh of long lasting stability around 120% was achieved for the same electrode for superior electrochemical water oxidation. The observed results strongly recommended that the controlled synthesis of NiS@FeS2 nanocomposites coated Ni foam substrate could be acted as an efficient working electrode for superior water oxidation process for sustainable electrochemical water splitting potential applications.