Title :
A Low Power Non-Volatile Memory Element Based on Copper in Deposited Silicon Oxide
Author :
Balakrishnan, Muralikrishnan ; Thermadam, Sarath Chandran Puthen ; Mitkova, Maria ; Kozicki, Michael N.
Author_Institution :
Center for Appl. Nanoionics, Arizona State Univ., Tempe, AZ
Abstract :
We describe the electrical characteristics of W-(Cu/SiO2)-Cu switching elements formed by thermal diffusion of copper into deposited silicon oxide. These devices switch via the electrochemical formation of a conducting filament within the high resistance Cu/SiO2 electrolyte film. Unwritten and fully- erased devices of 350 nm to 1 mum in diameter transitioned from a high resistance state in excess of 100 MOmega to their on state at 1.3 V or less, and the erase was initiated below -0.5 V. The on resistance was a function of programming current and a range of approximately 2 MOmega to below 300 Omega was demonstrated. Switching was possible using 3 V pulses of 1 mus duration and retention was good with no systematic upward drift evident beyond 105 s for devices programmed at 10 muA and read at 300 mV. Endurance for 350 nm diameter devices was determined to be in excess of 107 cycles.
Keywords :
electrical resistivity; electrodeposition; random-access storage; solid electrolytes; thermal diffusion; W-(Cu-SiO2)-Cu; electrodeposition; low power nonvolatile memory; resistance 100 Mohm; size 1 mum; size 350 nm; solid electrolyte; switching element; thermal diffusion; voltage 1.3 V; Chemical vapor deposition; Copper; Electrodes; Integrated circuit interconnections; Low voltage; Nonvolatile memory; Silicon; Solids; Switches; Tungsten; Copper doping; electrodeposition; non-volatile memory; resistance change; silicon oxide; solid electrolyte;
Conference_Titel :
Non-Volatile Memory Technology Symposium, 2006. NVMTS 2006. 7th Annual
Conference_Location :
San Mateo, CA
Print_ISBN :
0-7803-9738-X
DOI :
10.1109/NVMT.2006.378887
