Field-Induced Resistive Switching in Metal-Oxide Interfaces

2; (2) Lawrence Berkeley National Laboratory; 3); (3) Hong Kong University of Science; (4) Department of Chemistry; A. Baikalov (1); A. J. Jacobson (4) ((1) Department of Physics; California; C. W. Chu (1; J. Cmaidalka (1)

arxiv: cond-mat/0402687 · v1 · submitted 2004-02-27 · ❄️ cond-mat.supr-con

Field-Induced Resistive Switching in Metal-Oxide Interfaces

S. Tsui (1) , A. Baikalov (1) , J. Cmaidalka (1) , Y. Y. Sun (1) , Y. Q. Wang (1) , Y. Y. Xue (1) , C. W. Chu (1 , 2

show 12 more authors

3) L. Chen (4) A. J. Jacobson (4) ((1) Department of Physics TCSAM University of Houston Texas (2) Lawrence Berkeley National Laboratory California (3) Hong Kong University of Science Technology (4) Department of Chemistry Texas)

This is my paper

classification ❄️ cond-mat.supr-con

keywords interfacialswitchingfield-inducedlayerresistiveswitchaccompaniedaccumulation

0 comments

read the original abstract

We investigate the polarity-dependent field-induced resistive switching phenomenon driven by electric pulses in perovskite oxides. Our data show that the switching is a common occurrence restricted to an interfacial layer between a deposited metal electrode and the oxide. We determine through impedance spectroscopy that the interfacial layer is no thicker than 10 nm and that the switch is accompanied by a small capacitance increase associated with charge accumulation. Based on interfacial I-V characterization and measurement of the temperature dependence of the resistance, we propose that a field-created crystalline defect mechanism, which is controllable for devices, drives the switch.

This paper has not been read by Pith yet.

Field-Induced Resistive Switching in Metal-Oxide Interfaces

discussion (0)