Scalable growth of high quality bismuth nanowires
Bismuth nanowires have intriguing electronic and energy-harvesting application possibilities. However, fabricating these materials with high quality and in large quantities is challenging.
A group at the CFN, Brookhaven National Laboratory, has demonstrated a new technique to produce single- crystal nanowires atop arbitrary substrates, including glass, silicon, and metal, when an intermediate layer of vanadium is present. Â The simplicity of the technique and the universality of the mechanism open a new avenue for the growth of nanowire arrays of a variety of materials.
This is the first report on the high yield (>70%) synthesis of single crystalline bismuth nanowires, a material with potentially exploitable and intriguing thermoelectric properties. Â This technique produces bismuth nanowires in quantities limited only by the size of the substrate on which they are deposited. Â The dimensions of the bismuth nanowires can be tuned over a very wide range simply by varying the substrate's temperature. Â Further, in contrast with other fabrication methods, with this new technique there is no need for a catalyst to activate the production of the nanowires, thus avoiding inevitable contamination and enabling high-quality material.
CFN Capabilities: CFN's Materials Synthesis and Characterization, Electron Microscopy, and Advanced UV and X-ray Probes Facilities were used for synthesis of nanowires and their structural characterization.
More information: "Surface-energy induced formation of single crystalline bismuth nanowires over vanadium thin film at room temperature." Nano Letters 14, 5630–5635 (2014)
Journal information: Nano Letters
Provided by Brookhaven National Laboratory