Ferrites have been considered effective electrode materials for energy storage devices, such as supercapacitors (SCs). High specific capacitance and adaptability are offered by SCs composed of electrode materials based on ferrite. In the development of next-generation energy storage devices and renewable energy systems, challenges such as low electrical conductivity and durability may be addressed. In this work, we have developed a cobalt ferrite and polypyrrole (CoFe2O4/Ppy)-based electrode material for the supercapacitor application. The synthetic method was found to be low-cost and efficient. Analysis of the cost-effective CoFe2O4/Ppy material was done using differentanalytical methods. The electrochemical study demonstrated that CoFe2O4/Ppy was found to be an effective electrode material. Under a three-electrode system, a maximum specific capacitance of 295.5F/g for CoFe2O4/Ppy was evaluated. Additionally, the CoFe2O4/Ppy proved to be appropriate for the device system, with a specific capacitance of 44.4F/g in the two-electrode system. After 5000 GCD cycles, it was determined that CoFe2O4/Ppy had 93.4% cyclic stability.