A forming-free WOx resistive memory using a novel self-aligned field enhancement feature with excellent reliability and scalability

Author

Chien, W.C. ; Chen, Y.R. ; Chen, Y.C. ; Chuang, Alfred T H ; Lee, F.M. ; Lin, Y.Y. ; Lai, E.K. ; Shih, Y.H. ; Hsieh, K.Y. ; Lu, Chih-Yuan

Author_Institution

Emerging Central Lab., Macronix Int. Co., Ltd., Hsinchu, Taiwan

fYear

2010

fDate

6-8 Dec. 2010

Abstract

A thorough study of the switching mechanism for WO_X ReRAM gives clues about how to improve its performance and reliability. Consequently, a 60 nm WO_X ReRAM is achieved with excellent characteristics - 50ns fast switching, 10⁶ cycling endurance, large MLC window, low read disturb of >; 10⁹, and excellent 150°C/2,000Hrs data retention. Furthermore, the oxidation of the TiN barrier into an insulating TiNO_X causes the WO_X to protrude above the remaining TiN and thus creates field enhancement. The boosted electric field eliminates the need for an initial forming step.

Keywords

integrated circuit reliability; oxidation; random-access storage; titanium compounds; tungsten compounds; ReRAM; TiNO_x; WO_x; data retention; electric field; field enhancement; forming-free resistive memory; oxidation; reliability; resistive RAM; scalability; self-aligned field enhancement feature; switching mechanism; temperature 150 degC; time -50 ns; time 2000 hr;

fLanguage

English

Publisher

ieee

Conference_Titel

Electron Devices Meeting (IEDM), 2010 IEEE International

Conference_Location

San Francisco, CA

ISSN

0163-1918

Print_ISBN

978-1-4424-7418-5

Electronic_ISBN

0163-1918

Type

conf

DOI

10.1109/IEDM.2010.5703390

Filename

5703390