Structural Analysis of Small Vapor-Deposited 'Multiply- Twinned' Gold Particles
Document Type
Article
Publication Date
3-15-1979
Publisher
Elsevier B. V.
Abstract
High resolution selected zone dark field, Bragg reflection imaging and weak beam dark field techniques of transmission electron microscopy were used to determine the structure of small gold particles vapor deposited on NaCl substrates. Attention was focused on the analysis of those in the 50–150 Å range that have pentagonal or hexagonal bright field profiles. These particles have been previously described as multiply twinned crystallites composed of face-centered cubic tetrahedra. The experimental evidence of the present studies can be interpreted on the assumption that the particle structure is a regular icosahedron or decahedron for the hexagonal or the pentagonal particles respectively. The icosahedron is a multiply twinned rhombohedral crystal and the decahedron is a multiply twinned body-centered orthorhombic crystal, each of which constitutes a slight distortion from the face-centered cubic structure.
Recommended Citation
C.Y. Yang, K. Heinemann, M.J. Yacaman, and H. Poppa, “Structural Analysis of Small Vapor-Deposited 'Multiply- Twinned' Gold Particles,” Thin Solid Films 58, 163-168 (1979).