Enhanced synthesis of Sn nanowires with aid of Se atom via physical vapor transport

Release Time:2025-04-30  Hits:

• Date:2025-04-30
• Title of Paper:Enhanced synthesis of Sn nanowires with aid of Se atom via physical vapor transport
• Journal:J. Crystal Growth
• Summary:We demonstrate tin(Sn) nanowires growth enhanced by Selenium(Se)atoms via physical vapor transport (PVT) method. The Raman spectroscopy, X-ray diffraction, scanning electron microscopy and high-resolution  transmission electron microscopy show that Sn nanowires are synthesized with a large quantity, good quality and high purity of Sn. The growth of Sn nanowires is at tributed to Solid–Vapor–Liquid mechanism. The effects of gold nanoparticles catalyst, Si substrate, and Se atoms on Sn nanowires
  growth are discussed in detail. We find that Se atom plays a key role in the growth of Sn nanowires. The gaseous Sn atoms are absorbed by the eutectic alloy droplets of Se–Au at first. Then Sn atoms precipitate at the liquid–solid phase interface due to a supersaturated solution and form a one-dimensional nanostructure. In all, this PVT method could provide a simple and quick way to synthesize monocrystalline Sn nanowires with an advantage in both quality and quantity. The optical transmittance of Sn nanowires thin film with 2 μm-2 density approaches 85–90% in visible wavelength. Therefore, the Sn nanowires thin film can be applied to transparent electrode along with their metallic property.
• Co-author:H. Cai, W. Wang, P. Liu, G. Wang, A. Liu, Z. He, Z. Cheng, S. Zhang, M. G. Xia*
• Volume:420
• Page Number:42-46
• Translation or Not:No
• Date of Publication:2015-03-31