A perfume spray pyrolysis method has been used for fabricating nanosized Mg2SnO4.A perfume spray pyrolysis approach has been used for making Mg2SnO4 in nanoscale form. X-ray diffraction (XRD), fourier transform infrared spectroscopy (FT-IR), transmission spectroscopy (UV), and scanning electron microscopy (SEM) are used to analyse the structure and morphology of the samples as-prepared. According to the findings, the crystals also form in a cubic and polycrystalline structure. The direct band gap energy of the powder synthesised at 300°C, which had the maximum optical transmittivity (>80%), was 3.67 eV. The powder manufactured at 300 °C had a measured sheet resistance and resistivity of 2.06 x 107 cm. Also, cyclic voltammetry was utilised to examine the samples' electrochemical characteristics. The oxidation-reduction peaks' intensities are observed to rise, but their positions and forms do not change, further indicating the stability of the electrode and the potential of Mg2SnO4 as an electrode material, super capacitor component, and energy-harvesting component