In this thesis, we explore the electrical characteristics of HfOx based-RRAM cells. First, we fabricated Ni/HfOx/TiN and TiN/Ti/HfOx/TiN RRAM cells with various HfOx thickness and investigated the electrical characteristics with various compliance currents and stop voltages during reset. Second, we investigated the effect of Ti buffer layer thickness of TiN/Ti/HfOx/TiN RRAM cells. Third, to investigate the origin of overshoot current during forming and set operations, we measured the electrical characteristics of Ni/HfOx/TiN RRAM cells with external 1T1R configuration. Finally, I-V curves fitting and measurements done at various temperature were carried out in order to investigate the conduction mechanisms and the properties of conductive filaments. We observed that the compliance current has significant influences on LRS resistance. We also observed that the stop voltage during reset operation has influences on the HRS resistance and the set voltage in the following set operation. This indicates that the RRAM cells have tunable on/off ratio and operation power. On the other hand, the insertion of a Ti buffer layer into RRAM cells influences the forming voltage significantly, and thus the thicknesses of the Ti buffer layer and HfOx thin films must be optimized for stable the switching behaviors. Besides, the overshoot current was still observed with the external 1T1R configuration, indicating the importance for eliminating the parasitic capacitance within the measurement configurations. Finally, we observe different current conduction mechanisms in different logic states for the RRAM cells, and the mechanisms are found to be closely related to the electrode materials. From which it can be concluded that the properties of conductive filaments depend on the electrodes of the RRAM cells significantly.