Title :
Scaling of nanocrystal memory cell by direct tungsten bitline on self-aligned landing plug polysilicon contact
Author :
Kim, II-Gweon ; Yanagidaira, Kosuke ; Hiramoto, Toshiro
Author_Institution :
Inst. of Ind. Sci., Sci. & Technol. Corp., Tokyo, Japan
fDate :
5/1/2004 12:00:00 AM
Abstract :
This letter reports the first full process integration of nanocrystal memory cell with 4.6 F2 area ( NOR type), which is achieved by direct tungsten (W) bitline on self-aligned landing plug polysilicon contact. Prior to the nanocrystals (NCs) formation, surface hydroxylation of the tunnel SiO2 by exposure to 1:99 hydrogen flouride (HF) is performed to maintain controllability of NCs. Also, the degradation of the tunnel SiO2 caused by HF dipping is overcome to some extent through its fluorination. Robust four-threshold voltage (Vth) states for 2-bit operation per cell are observed due to the localized injected charge and Vth asymmetry from different reading sensitivity to localized charges.
Keywords :
charge injection; integrated memory circuits; nanocontacts; nanoelectronics; nanostructured materials; semiconductor storage; silicon compounds; tungsten; HF; NC formation; NOR type; SiC; SiO2; W; direct tungsten bitline; fluorination; full process integration; localized charges; localized injected charge; nanocrystal memory cell; reading sensitivity; robust four-threshold voltage states; self-aligned landing plug polysilicon contact; surface hydroxylation; threshold voltage asymmetry; tunneling; Controllability; Etching; Hafnium; Hydrogen; Linear predictive coding; Lithography; Nanocrystals; Plugs; Silicon; Tungsten;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2004.826542
