One-dimensional twisted and tubular structures of zinc oxide by semiconductor-catalyzed vapor–liquid–solid synthesis

Author(s)

Pham, Thang; Kommandur, Sampath; Lee, Haeyeon; Zakharov, Dmitri; Filler, Michael A; Ross, Frances M; ... Show more Show less

Abstract

© 2020 IOP Publishing Ltd. The exploration of unconventional catalysts for the vapor-liquid-solid synthesis of one-dimensional materials promises to yield new morphologies and functionality. Here, we show, for the model ZnO system, that unusual nanostructures can be produced via a semiconductor (Ge) catalyst. As well as the usual straight nanowires, we describe two other distinct morphologies: twisted nanowires and twisted nanotubes. The twisted nanotubes show large hollow cores and surprisingly high twisting rates, up to 9 /μm, that cannot be easily explained through the Eshelby twist model. A combination of ex situ and in situ transmission electron microscopy measurements suggest that the hollow core results from a competition between growth and etching at the Ge-ZnO interface during synthesis. The twisting rate is consistent with a softening of elastic rigidity. These results indicate that the use of unconventional, nonmetallic catalysts provides opportunities to synthesize unusual oxide nanostructures with potentially useful properties.

Date issued

2021

URI

https://hdl.handle.net/1721.1/142596

Department

Massachusetts Institute of Technology. Department of Materials Science and Engineering

Journal

Nanotechnology

Publisher

IOP Publishing

Citation

Pham, Thang, Kommandur, Sampath, Lee, Haeyeon, Zakharov, Dmitri, Filler, Michael A et al. 2021. "One-dimensional twisted and tubular structures of zinc oxide by semiconductor-catalyzed vapor–liquid–solid synthesis." Nanotechnology, 32 (7).

Version: Original manuscript