Also of interest

Soft Matter

Physics, chemistry and biology of Soft Matter

Paper

J. Mater. Chem., 2010, 20, 1375 - 1382, DOI: 10.1039/b917032d

---

Epitaxially-hyperbranched FeSi nanowires exhibiting merohedral twinning

Jeannine R. Szczech and Song Jin

---

We report the synthesis of epitaxially-hyperbranched FeSi nanowires via chemical vapor transport using FeSi₂ as the source material and I₂ as the transport agent. Scanning electron microscopy reveals that the nanowires have diameters ranging from 25 to 1000 nm, depending on the morphology. Structural characterization using electron diffraction, energy dispersive spectroscopy, and powder X-ray diffraction reveal that these nanowires are single-crystalline cubic FeSi with growth in the <110> direction. X-Ray photoelectron spectroscopy shows that the thin, amorphous coating on these nanostructures is comprised primarily of silicon oxide. Interestingly, these FeSi nanowires exhibit merohedral twinning, an uncommon type of twinning in nanostructures that cannot be observed using electron diffraction, with the (001) twin plane parallel to the <110> growth direction. Such merohedral twinning should generally be expected for all B20 silicide nanowires. In addition to nanowires, other morphologies including nanocombs, nanoflowers, and micron-sized crystals are also observed during the synthesis at various temperature zones of the growth substrates.

About this Journal

• Journal Home
• About the Journal

Read the Journal

• Advance Articles
• Browse Issues
• Search RSC Journals
• RSC Prospect Structure Search
• E-Alerts Service
• RSS feed

ReSourCe

• Submit an Article
• Author Guidelines
• Ethical Guidelines
• Copyright & Permissions
• Referee Report Forms

Explore the Journal

• Hot Articles
• Cover Gallery
• Top 10
• People and Contacts

Customer Services

• Subscriptions
• Advertising
• Librarians

Tools