D. C. Gilmer scite author profile

By combining electrical, physical, and transport/atomistic modeling results, this study identifies critical conductive filament (CF) features controlling TiN/HfO2/TiN resistive memory (RRAM) operations. The leakage current through the dielectric is found to be supported by the oxygen vacancies, which tend to segregate at hafnia grain boundaries. We simulate the evolution of a current path during the forming operation employing the multiphonon trap-assisted tunneling (TAT) electron transport model. The forming process is analyzed within the concept of dielectric breakdown, which exhibits much shorter characteristic times than the electroforming process conventionally employed to describe the formation of the conductive filament. The resulting conductive filament is calculated to produce a non-uniform temperature profile along its length during the reset operation, promoting preferential oxidation of the filament tip. A thin dielectric barrier resulting from the CF tip oxidation is found to control filament resistance in the high resistive state. Field-driven dielectric breakdown of this barrier during the set operation restores the filament to its initial low resistive state. These findings point to the critical importance of controlling the filament cross section during forming to achieve low power RRAM cell switching.

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MOSFET transistors fabricated with high permitivity TiO/sub 2/ dielectrics

Campbell

Gilmer

Wang

et al. 1997

IEEE Trans. Electron Devices

403

159

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Resistive Switching by Voltage-Driven Ion Migration in Bipolar RRAM—Part I: Experimental Study

Nardi

Larentis

Balatti

et al. 2012

IEEE Trans. Electron Devices

186

148

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Titanium dioxide (TiO₂)-based gate insulators

et al. 1999

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D. C. Gilmer

Resistive Switching by Voltage-Driven Ion Migration in Bipolar RRAM—Part II: Modeling

Metal oxide resistive memory switching mechanism based on conductive filament properties

MOSFET transistors fabricated with high permitivity TiO/sub 2/ dielectrics

Resistive Switching by Voltage-Driven Ion Migration in Bipolar RRAM—Part I: Experimental Study

Titanium dioxide (TiO₂)-based gate insulators

Contact Info

Product

Resources

About

D. C. Gilmer

Resistive Switching by Voltage-Driven Ion Migration in Bipolar RRAM—Part II: Modeling

Metal oxide resistive memory switching mechanism based on conductive filament properties

MOSFET transistors fabricated with high permitivity TiO/sub 2/ dielectrics

Resistive Switching by Voltage-Driven Ion Migration in Bipolar RRAM—Part I: Experimental Study

Titanium dioxide (TiO2)-based gate insulators

Contact Info

Product

Resources

About

Titanium dioxide (TiO₂)-based gate insulators