A novel approach for the fabrication of a metal oxide semiconductor(MOS) structure was reported.The process comprises electrochemical deposition of aluminum and zinc layers on a base of nickel-chromium alloy. This two-layer structure was thermally oxidized at 400℃for 40 min to produce thin layers of aluminum oxide as an insulator and zinc oxide as a semiconductor on a metallic substrate.Using deposition parameters,device dimensions and SEM micrographs of the layers,the device parameters were calculated.The resultant MOS structure was characterized by a C-V curve method.From this curve,the device maximum capacitance and threshold voltage were estimated to be about 0.74 nF and -2.9 V,respectively,which are in the order of model-based calculations. A novel approach for the fabrication of a metal oxide semiconductor (MOS) structure was reported. The process comprises electrochemical deposition of aluminum and zinc layers on a base of nickel-chromium alloy. This two-layer structure was thermally oxidized at 400 ° C for 40 min to produce thin layers of aluminum oxide as an insulator and zinc oxide as a semiconductor on a metallic substrate. Using deposition parameters, device dimensions and SEM micrographs of the layers, the device parameters were calculated. resultant MOS structure was characterized by a CV curve method. From this curve, the device maximum capacitance and threshold voltage were estimated to be about 0.74 nF and -2.9 V, respectively, which are in the order of model-based calculations.