Volatile and non-volatile memories in silicon with nano-crystal storage

Author

Tiwari, Sandip ; Rana, Farhan ; Chan, Kevin ; Hanafi, Hussein ; Wei Chan ; Buchanan, Doug

Author_Institution

IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA

fYear

1995

Firstpage

521

Lastpage

524

Abstract

A single transistor memory structure, with changes in threshold voltage exceeding ≈0.25 V corresponding to single electron storage in individual nano-crystals, operating in the sub-3 V range, and exhibiting long term to non-volatile charge storage is reported. As a consequence of Coulombic effects, operation at 77 K shows a saturation in threshold voltage in a range of gate voltages with steps in the threshold voltage corresponding to single and multiple electron storage. The plateauing of threshold shift, operation at ultra-low power, low voltages, and single element implementation utilizing current sensing makes this an alternative memory at speeds lower than those of DRAMs and higher than those of E²PROMs, but with potential for significantly higher density, lower power, and faster read

Keywords

nanostructured materials; quantum interference devices; semiconductor storage; silicon; single electron transistors; Coulombic effects; SiO₂-Si; current sensing; gate voltages; low voltage; multiple electron storage; nanocrystal storage; nonvolatile charge storage; nonvolatile memories; single electron storage; single transistor memory structure; threshold shift plateau; threshold voltage changes; threshold voltage saturation; ultra-low power; volatile memories; Low voltage; Nanoscale devices; Nonvolatile memory; PROM; Random access memory; Silicon; Single electron transistors; Thickness control; Threshold voltage; Tunneling;

fLanguage

English

Publisher

ieee

Conference_Titel

Electron Devices Meeting, 1995. IEDM '95., International

Conference_Location

Washington, DC

ISSN

0163-1918

Print_ISBN

0-7803-2700-4

Type

conf

DOI

10.1109/IEDM.1995.499252

Filename

499252