Density-Functional Study of the Geometries, Stabilities, and Bond Energies of III-V (13-15) Four-Membered Ring Compounds.
Abstract
A theoretical investigation has been carried out on several group III-V (13-15) four-membered ring compounds which, if experimentally attainable, are potentially useful as precursors to nanocrystalline electronic and semiconductor materials. Four-membered ring compounds considered in this study have core structures of the form: MEM'E'(top bracket) and MEMX(top bracket) (M, M' = In, Ga, Al; E, E' = P, As; X = Cl, Br). Equilibrium geometries, binding energies, and bond energies were determined based on local density approximation (LDA) and gradient-corrected density-functional methods. Optimized ring geometries obtained with LDA agree closely with single crystal X-ray crystallographic structures of known compounds with the same four-membered ring cores. The following trends in bond energies are observed: M-Cl >> M-P > M-As >> M-Br (M = In, Ga, Al), and Al-Y > Ga-Y > In-Y (Y = P, As, Cl, Br). Although only one M-Br-containing mixed-bridge four-membered ring compound has been reported and no such Al-Cl-containing mixed-bridge species have yet been synthesized, our calculations suggest that compounds containing these two ring systems are stable.
Document Details
- Document Type
- Technical Report
- Publication Date
- May 21, 1996
- Accession Number
- ADA309149
Entities
People
- Darrin M. York
- Haihong Ni
- Lee Bartolotti
- Richard L. Wells
- Weitao Yang
Organizations
- Duke University