Title :
Ultralow Sub-1-nA Operating Current Resistive Memory With Intrinsic Non-Linear Characteristics
Author :
Gaba, Siddharth ; Fuxi Cai ; Jiantao Zhou ; Lu, Wei D.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Univ. of Michigan, Ann Arbor, MI, USA
Abstract :
Sub-1-nA operating current conductive-bridge resistive memory devices showing pronounced rectifying behavior have been demonstrated in a cell structure consisting of Cu top electrode, atomic layer deposition Al2O3 switching film and polysilicon bottom electrode as an in-cell resistor. This ultralow current provides energy savings by minimizing write, erase, and read currents. Despite having such low currents, excellent retention, ON/OFF ratio, and endurance have been demonstrated. Devices programmed with <;1-nA peak current pass 6 h retention test at 85°C and show no significant degradation after 10000 write/erase cycles. Due to the partially formed filament, the devices at ON-state exhibit pronounced nonlinear I-V and current rectification-both factors are very beneficial for RRAM array operation. Multilevel storage can be obtained by controlling the filament shape through compliance current.
Keywords :
aluminium compounds; atomic layer deposition; copper; electrodes; integrated circuit testing; random-access storage; silicon; Al2O3; Cu; RRAM array operation; Si; atomic layer deposition; cell structure; conductive-bridge resistive memory devices; current rectification; energy savings; filament shape; in-cell resistor; intrinsic nonlinear characteristics; multilevel storage; polysilicon bottom electrode; switching film; temperature 85 degC; time 6 h; ultralow operating current resistive memory; Aluminum oxide; Atomic layer deposition; Electron mobility; Nonvolatile memory; Random access memory; Resistance; CBRAM; RRAM; filament; rectification; ultra-low current; ultra-low current.;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2014.2363618
