III-V semiconductor nanowires for future devices

Author

Schmid, Heinz ; Borg, B. Mattias ; Moselund, K. ; Kanungo, P. Das ; Signorello, G. ; Karg, Siegfried ; Mensch, Philipp ; Schmidt, Volker ; Riel, Heike

Author_Institution

IBM Res. - Zurich, Zurich, Switzerland

fYear

2014

fDate

24-28 March 2014

Firstpage

1

Lastpage

2

Abstract

The monolithic integration of III-V nanowires on silicon by direct epitaxial growth enables new possibilities for the design and fabrication of electronic as well as optoelectronic devices. We demonstrate a new growth technique to directly integrate III-V semiconducting nanowires on silicon using selective area epitaxy within a nanotube template. Thus we achieve small diameter nanowires, controlled doping profiles and sharp heterojunctions essential for future device applications. We experimentally demonstrate vertical tunnel diodes and gate-all-around tunnel FETs based on InAs-Si nanowire heterojunctions. The results indicate the benefits of the InAs-Si material system combining the possibility of achieving high I_on with high I_on/I_off ratio.

Keywords

doping profiles; epitaxial growth; field effect transistors; indium compounds; nanowires; semiconductor heterojunctions; semiconductor quantum wires; tunnel diodes; III-V semiconductor nanowires; InAs-Si; Si; direct epitaxial growth; doping profiles; electronic design; electronic fabrication; gate-all-around tunnel FET; high I_on-I_off ratio; material system; monolithic integration; nanotube template; nanowire heterojunctions; optoelectronic devices; selective area epitaxy; silicon; vertical tunnel diodes; Doping; Field effect transistors; Heterojunctions; Nanowires; Performance evaluation; Silicon; Esaki diodes; III-V semiconductors; Tunnel FETs; nanowires;

fLanguage

English

Publisher

ieee

Conference_Titel

Design, Automation and Test in Europe Conference and Exhibition (DATE), 2014

Conference_Location

Dresden

Type

conf

DOI

10.7873/DATE.2014.247

Filename

6800448