Abstract Electrochemical properties of MnFe2O4 pseudocapacitors in organic electrolytes have been studied via chronopotentiometry, X-ray absorption spectroscopy (XANES) and cyclic voltammetry analysis. Crystalline MnFe2O4 and carbon black composite electrode shows a specific capacitance at least 120 F/g- MnFe2O4 in LiPF6 organic solution. And the capacitor can be safely operated in a potential window between 1.8 V and 4.2 V (vs. Li/Li+). As the working voltage is lower than 1.8 V, the fading rate of the capacitance will rapidly increase. From XANES analysis, the fading mechanism may attribute to the irreversible electronic configuration changes in the ferrite material. At the follow-up part of the thesis, a new hybrid surpercapacitor using LiMn2O4 and MnFe2O4 as the electrode materials in the organic electrolytes is also studied. The results show that this system exhibits good capacitor behavior. By matching with the battery-type electrode, the specific capacitance and self-discharge rate are both improved a lot than symmetric capacitor system. This hybrid system is helpful for developing the practical application.