Vertically Stacked and Independently Controlled Twin-Gate MOSFETs on a Single Si Nanowire

Author

Li, Xiang ; Chen, Zhixian ; Shen, Nansheng ; Sarkar, Deblina ; Singh, Navab ; Banerjee, Kaustav ; Lo, Guo-Qiang ; Kwong, Dim-Lee

Author_Institution

Inst. of Microelectron., Agency for Sci., Technol. & Res. (A*STAR), Singapore, Singapore

Volume

32

Issue

11

fYear

2011

Firstpage

1492

Lastpage

1494

Abstract

For the first time, we demonstrate the fabrication of two independently controlled gate-all-around MOSFETs on a single vertical silicon nanowire using CMOS process technology. The second gate is vertically stacked on top of the first gate without occupying additional area and thereby achieving true 3-D integration. The fabricated devices exhibit very low leakage, tunability in drain current, as well as “AND” gate functionality with 50% reduction in area for both n- and p-type MOSFETs. The twin-gate device structure is also promising for implementing other device types such as stacked SONOS memory and tunneling FET. We anticipate that our vertically integrated device architecture will provide unique opportunities for realizing ultra-dense CMOS logic on a single nanowire.

Keywords

CMOS integrated circuits; MOSFET; elemental semiconductors; nanoelectronics; nanowires; silicon; three-dimensional integrated circuits; tunnelling; 3D integration; AND gate functionality; CMOS process technology; Si; drain current tunability; independently controlled twin-gate MOSFET; leakage; n-type MOSFET; p-type MOSFET; single vertical silicon nanowire; stacked SONOS memory; tunneling FET; vertically stacked MOSFET; Logic gates; MOSFETs; Nanoscale devices; Silicon; Tunneling; AND gate; gate-all-around (GAA) FET; inverter; monolithic 3-D IC; nanowire FET; twin-gate; vertically stacked MOSFETs;

fLanguage

English

Journal_Title

Electron Device Letters, IEEE

Publisher

ieee

ISSN

0741-3106

Type

jour

DOI

10.1109/LED.2011.2165693

Filename

6026900