Experimental and computational simulations revealed that boron clusters, which favor planar (2D) structures up to 18 atoms, prefer three-dimensional (3D) structures beginning at 20 atoms. Using global optimization methods, we found that the B20 neutral cluster has a double-ring tubular structure with a diameter of 5.2 Å. In the B20- anion, the tubular structure is shown to be isoenergetic to 2D structures, which were observed and confirmed by photoelectron spectroscopy. The 2D to 3D structural transition observed at B20, reminiscent to the ring-to-fullerene transition at C20 in carbon clusters, suggests it may be considered as the embryo of the thinnest single-walled boron nanotubes.
Revised: November 10, 2005 |
Published: January 25, 2005
Citation
Boggavarapu K., S. Bulusu, H.J. Zhai, S. Yoo, X. Zeng, and L.S. Wang. 2005.Planar-to-Tubular Structural Transition in Boron Clusters: B20 as the Embryo of Single-Walled Boron Nanotubes.Proceedings of the National Academy of Sciences of the United States of America 102, no. 4:961-964.PNNL-SA-43967.