Details

Autor(en) / Beteiligte

• Jiang, Hongyu
• Xu, Jiyu
• Zhang, Qinghua
• Yu, Qian
• Shen, Laiquan
• Liu, Ming
• Sun, Yitao
• Cao, Chengrong
• Su, Dong
• Bai, Haiyang
• Meng, Sheng
• Sun, Baoan
• Gu, Lin
• Wang, Weihua

Titel

Direct observation of atomic-level fractal structure in a metallic glass membrane

Ist Teil von

• Science bulletin, 2021-07, Vol.66 (13), p.1312-1318

Ort / Verlag

Netherlands: Elsevier B.V

Erscheinungsjahr

2021

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• We directly observed the atomic arrangements in atomically thin metallic glassy membranes through the advanced transmission electron microscopy. The global atomic packing in the amorphous structure is found to have a fractal nature, which is well described by the percolation theory. [Display omitted] Determination and conceptualization of atomic structures of metallic glasses or amorphous alloys remain a grand challenge. Structural models proposed for bulk metallic glasses are still controversial owing to experimental difficulties in directly imaging the atom positions in three-dimensional structures. With the advanced atomic-resolution imaging, here we directly observed the atomic arrangements in atomically thin metallic glassy membranes obtained by vapor deposition. The atomic packing in the amorphous membrane is shown to have a fractal characteristic, with the fractal dimension depending on the atomic density. Locally, the atomic configuration for the metallic glass membrane is composed of many types of polygons with the bonding angles concentrated on 45°–55°. The fractal atomic structure is consistent with the analysis by the percolation theory, and may account for the enhanced relaxation dynamics and the easiness of glass transition as reported for the thin metallic glassy films or glassy surface.