Report

Atomic-Scale Variability and Control of III-V Nanowire Growth Kinetics

See allHide authors and affiliations

Science  17 Jan 2014:
Vol. 343, Issue 6168, pp. 281-284
DOI: 10.1126/science.1244623

You are currently viewing the abstract.

View Full Text

Regular Nanowires

For a range of nanotechnology applications, semiconductor nanowires will need to be grown with high precision and control. Chou et al. (p. 281) studied the growth of gallium phosphide (GaP) nanowires using chemical vapor deposition within a transmission electron microscope and worked out conditions that could generate regular and predictable wire growth.

Abstract

In the growth of nanoscale device structures, the ultimate goal is atomic-level precision. By growing III-V nanowires in a transmission electron microscope, we measured the local kinetics in situ as each atomic plane was added at the catalyst-nanowire growth interface by the vapor-liquid-solid process. During growth of gallium phosphide nanowires at typical V/III ratios, we found surprising fluctuations in growth rate, even under steady growth conditions. We correlated these fluctuations with the formation of twin defects in the nanowire, and found that these variations can be suppressed by switching to growth conditions with a low V/III ratio. We derive a growth model showing that this unexpected variation in local growth kinetics reflects the very different supply pathways of the V and III species. The model explains under which conditions the growth rate can be controlled precisely at the atomic level.

View Full Text