Title :
Unipolar Resistive Switching Properties of Diamondlike Carbon-Based RRAM Devices
Author :
Fu, Di ; Xie, Dan ; Feng, Tingting ; Zhang, Chenhui ; Niu, Jiebin ; Qian, He ; Liu, Litian
Author_Institution :
Inst. of Microelectron., Tsinghua Univ., Beijing, China
fDate :
6/1/2011 12:00:00 AM
Abstract :
Resistance random access memory devices based on nanoscale diamondlike carbon (DLC) films are demonstrated. The devices exhibit excellent memory performances such as high on/off-resistance ratio (>; 300), high switching speed ( <; 50 ns), low operation voltage ( <; 1.2 V), low switching power consumption ( <; 16 μW), nondestructive readout, and good reliability. Nanoscale graphitic filament formation and rupture alternately through the field-induced dielectric breakdown and thermal fuse effect, respectively, are proposed to be responsible for the resistance switching. The unipolar switching characteristics shown here suggest that DLC is one of the most promising material candidates for high-density and low-power nonvolatile memory applications.
Keywords :
diamond-like carbon; random-access storage; diamondlike carbon-based RRAM devices; dielectric breakdown; good reliability; low-power nonvolatile memory; nanoscale diamondlike carbon films; nanoscale graphitic filament formation; nondestructive readout; resistance random access memory devices; resistance switching; switching power consumption; unipolar resistive switching properties; unipolar switching; Carbon; Materials; Nanoscale devices; Nonvolatile memory; Resistance; Resistors; Switches; Diamondlike carbon (DLC); resistance random access memory (RRAM); unipolar resistive switching;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2011.2132750
