Electrical and microstructural characterisation of an ultrathin silicon interlayer used in a silicon dioxide/germanium-based MIS structure

Author

Hattangady ; Vitkavage, D.J. ; Markunas, R.J. ; Posthill, J.B.

Volume

24

Issue

16

fYear

1988

fDate

8/4/1988 12:00:00 AM

Firstpage

1010

Lastpage

1011

Abstract

Ultrathin (1.0 nm) Si layers have been deposited on Ge(100) surfaces using remote plasma-enhanced chemical vapour deposition (RPECVD) at 350°C followed by in situ RPECVD deposition of an SiO ₂ insulating layer. Micro-structural data from transmission electron microscopy along with elemental analysis from X-ray photoelectron spectroscopy and ion scattering spectroscopy indicate that the Si layer is present and may be pseudomorphic in nature. The formation of a Si/Ge heterojunction prior to oxide deposition minimises the formation of Ge oxides and thus controls the chemical nature of the Ge surface. Indeed, dramatic improvements in the electrical interfacial characteristics were observed in the SiO₂/Si/Ge over the SiO ₂/Ge MIS structure

Keywords

elemental semiconductors; germanium; metal-insulator-semiconductor structures; semiconductor technology; semiconductor-insulator boundaries; silicon; silicon compounds; 1 nm; 350 C; Ge MIS structure; MIS structure; RPECVD; Si-Ge heterojunction; SiO₂-Si-Ge structure; X-ray photoelectron spectroscopy; electrical characterisation; electrical interfacial characteristics; elemental analysis; ion scattering spectroscopy; microstructural characterisation; remote plasma-enhanced chemical vapour deposition; transmission electron microscopy; ultrathin Si layer;

fLanguage

English

Journal_Title

Electronics Letters

Publisher

iet

ISSN

0013-5194

Type

jour

Filename

191699