This invention combines FC and NM into Na(MnwFexCoyNiz)O2 (MFCN), where the stoichiometric values of w, x, y, and z are variable. Various types of MFCN powder are obtained by sintering the pressed pellet from ball-milled mixture of stoichiometric amounts of Mn2O3, Fe2O3, Co3O4, NiO, and Na2CoO3 powder at 800°C in air. These powders can be formed into electrodes for use in an electrochemical device. Discharge capacity and cyclability of MFCN electrodes were compared to those for FC and NM. MFCN exhibited better cyclability than FC and NM, falling from 180 mAhg-1 to 160 mAhg-1 after 20 cycles at a charge/discharge rate of C/10. In contrast, FC fell from 160 mAhg-1 to 145 mAhg-1 and NM fell from 140 mAhg-1 to 125 mAhg-1. While crystal distortion was observed during Na de-intercalation for NM and FC, no distortion was observed in MFCN. As a result, MFCN has a much smoother electrochemical profile than NM or FC. The optimal amount of Iron (Fe) for efficient charging and discharging was found to be one third of the overall metal content. This amount of Fe is high enough to impart flexibility to the crystal lattice and low enough to stop unwanted Fe migration due to Fe interaction with Na ions.