S. Haddad scite author profile

The Cu2O metal-insulator-metal (MIM) resistive switching memory was characterized on a 64kb memory test array. The switching properties are consistent with the proposed switching model of conductivity modulation by a charge trapping process. Retention, programing characteristics, and temperature effects are analyzed based on the switching model. The measured characteristics and the switching model for Cu2O MIM are compared with those of other resistive switching materials. The statistical characteristics provide essential evidence for analysis of the switching mechanism and evaluation of the memory devices.

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Erasing characteristics of Cu2O metal-insulator-metal resistive switching memory

Chen¹,

Haddad²,

Wu³

et al. 2008

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Articles you may be interested inOn the role of Ti adlayers for resistive switching in HfO 2 -based metal-insulator-metal structures: Top versus bottom electrode integration J. Vac. Sci. Technol. B 29, 01AD02 (2011); 10.1116/1.3536524 Pulse-induced low-power resistive switching in Hf O 2 metal-insulator-metal diodes for nonvolatile memory applications Delayed-switch-on effect in metal-insulator-metal organic memories

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Erase Mechanism for Copper Oxide Resistive Switching Memory Cells with Nickel Electrode

Fang¹,

Kaza²,

Haddad³

et al. 2006

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Degradations due to hole trapping in flash memory cells

Haddad

Chang

Swaminathan

et al. 1989

IEEE Electron Device Lett.

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S. Haddad

Non-volatile resistive switching for advanced memory applications

Switching characteristics of Cu2O metal-insulator-metal resistive memory

Erasing characteristics of Cu2O metal-insulator-metal resistive switching memory

Erase Mechanism for Copper Oxide Resistive Switching Memory Cells with Nickel Electrode

Degradations due to hole trapping in flash memory cells

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