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In this paper, a high thermal stable TaOx-based RRAM device has been fabricated with TiN as the top electrode. The fabricated device shows good endurance behavior with little fluctuations in voltages and resistance state. Due to the stability of this device, potential for MLC application was also investigated. In addition, the mechanism of the high performance of the device is analyzed with Gibbs...
This work studies the electrical and testing reliability issues of CuxO based RRAM (Resistive Random Access Memory). Firstly, we study the most important electrical reliability issue-data retention capability, and propose a filament/charge trap combined model to clarify the retention failure mechanism. Secondly, we respectively study the reliability problems caused by the SET compliance current in...
We compare the switching behavior of two classes of resistive RAMs (RRAMs), namely Cu-SiO2 based conductive-bridging-RAMS (CBRAMs) and HfO2 based Oxide-RRAMs (OxRRAMs). In both devices the ON/OFF ratios are high, the set voltage is reproducible from cycle to cycle, and the reset voltage displays large dispersion. No forming stage is required in the investigated OxRRAMs. CBRAMs offer much lower programming...
The resistance switching characteristics of Cu doped HfO2 film are investigated for nonvolatile memory. Two stable states can be achieved under both pulse and DC electrical stress. Good performances including large storage window, fast operation speed, good endurance, and long time retention are shown in this device. The metallic filament is confirmed as the physical origin for resistance switching...
ZrO2-based resistive random access memory devices composed of a thin Cu doped ZrO2 film sandwiched between an oxidizable top electrode and an inert bottom electrode are fabricated by e-beam evaporation at room temperature. The devices show reproducible nonpolar resistive switching. The formation and annihilation of localized conductive filaments is suggested to be responsible for the resistive switching...
Two types of ReRAM are investigated. The first is a CB-ReRAM (conducting bridge ReRAM) that uses metallic ions to form the bridge. This type of device is known to be unstable because the conducting bridge tends to self-destruct. By adding a buffer layer between the electrode and the electrolyte, the retention of the Cu-based CB-ReRAM is greatly improved while the superior electrical performance is...
1T1R-architecture devices were fabricated by integrating ZrO2 based crossbar structure ReRAM onto a foundry-built MOSFET platform. Multilevel operation was realized by using the current limit of a selected cell transistor in the set process. The current level was determined by the transistor's gate voltage, resulting in the control of electrical resistance of the filamentary conductive paths in the...
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