InN nanowire transistors: Growth, electronics & photonics

Author

Cheng, Guosheng ; Liu, Haibin ; Geng, Xiumei ; Chen, Jia

Author_Institution

Suzhou Inst. of Nano-Tech & Nano-Bionics, Chinese Acad. of Sci., Suzhou, China

fYear

2010

Firstpage

1206

Lastpage

1207

Abstract

Semiconducting group-III nitrides have been the focus of intense research in recent years because of their excellent inherent electronic and optoelectronic properties. In particular, indium nitride (InN) has attracted much attention due to the lowest effective electron mass among all the III-nitride compounds, potentially leading to a high mobility. Optically, it was reported that InN has an unexpectedly low band gap of around 0.7-0.9 eV at room temperature, i.e., emitting in a wavelength of 1-2 Â¿m, a range widely used by the telecommunication industry.

Keywords

III-V semiconductors; indium compounds; nanoelectronics; nanofabrication; nanophotonics; nanowires; semiconductor quantum wires; transistors; InN; band gap; effective electron mass; mobility; nanoelectronics; nanogrowth; nanowire transistors; photonics; semiconducting group-III nitrides; telecommunication industry; Communication industry; Electron mobility; Electron optics; Indium; Lead compounds; Photonic band gap; Semiconductivity; Stimulated emission; Temperature distribution; Transistors;

fLanguage

English

Publisher

ieee

Conference_Titel

Nanoelectronics Conference (INEC), 2010 3rd International

Conference_Location

Hong Kong

Print_ISBN

978-1-4244-3543-2

Electronic_ISBN

978-1-4244-3544-9

Type

conf

DOI

10.1109/INEC.2010.5424944

Filename

5424944