Ti-catalyzed Si nanowires by chemical vapor deposition: Microscopy and growth mechanisms

abstract

Si nanowires grow rapidly by chemical vapor deposition on Ti-containing islands on Si surfaces when an abundant supply of Si-containing gaseous precursor is available. The density of wires is approximately the same as the density of the nucleating islands on the Si surface, although at least two different types of islands appear to correlate with very different wire growth rates. For the deposition conditions used, a minority of long, defect-free wires form, along with more numerous wires containing defects. Energy-dispersive x-ray spectroscopy shows that the Ti-containing nanoparticles remain at the tip of the growing wires. The estimated diffusion coefficient of Si in TiSi2 is consistent with the catalyzing nanoparticle remaining in the solid phase during nanowire growth.

authors

Williams, R. Stanley

published proceedings

JOURNAL OF APPLIED PHYSICS

altmetric score

6

author list (cited authors)

Kamins, T. I., Williams, R. S., Basile, D. P., Hesjedal, T., & Harris, J. S.

citation count

275

complete list of authors

Kamins, TI||Williams, RS||Basile, DP||Hesjedal, T||Harris, JS

publication date

January 2001

publisher

AIP Publishing Publisher

keywords

40 Engineering
4018 Nanotechnology
Bioengineering
Nanotechnology

Digital Object Identifier (DOI)

10.1063/1.1335640

start page

1008

end page

1016

volume

89

issue

2

URL

http://dx.doi.org/10.1063/1.1335640

Ti-catalyzed Si nanowires by chemical vapor deposition: Microscopy and growth mechanisms Academic Article

Overview

abstract

authors

published proceedings

altmetric score

author list (cited authors)

citation count

complete list of authors

publication date

publisher

Research

keywords

Identity

Digital Object Identifier (DOI)

Additional Document Info

start page

end page

volume

issue

Other

URL