摘要
Silicon nanowires (SiNWs, diameter g 5 nm, and length ∼ µm) have been fabricated with metal- and SiO2-catalyses assisted by laser ablation. In the catalytic growth of single-crystalline SiNWs by pure metal catalysts
(Fe, Ru, and Pr), Si {111} is found to be the most stable plane and wire growth axis is along 〈111〉. The growth mechanism follows a vapor-liquid-solid process, and the synthesized SiNWs typically have metaltips composed of metal and Si, such as FeSi2, RuSi3, and PrSi4, respectively. In sharp contrast, a crystalline
growth axis of 〈111〉 and a wire growth axis of 〈112〉 are the result in the SiNWs catalyzed by SiO2. Besides,the SiO2-catalytic SiNWs generally have no tips at the wire ends. Distinctive growth mechanisms resulting from metal- and SiO2-catalyses will be discussed. Pressure effect on the longitudinal and transverse growing rates in the fabrication of SiNWs has been examined.
(Fe, Ru, and Pr), Si {111} is found to be the most stable plane and wire growth axis is along 〈111〉. The growth mechanism follows a vapor-liquid-solid process, and the synthesized SiNWs typically have metaltips composed of metal and Si, such as FeSi2, RuSi3, and PrSi4, respectively. In sharp contrast, a crystalline
growth axis of 〈111〉 and a wire growth axis of 〈112〉 are the result in the SiNWs catalyzed by SiO2. Besides,the SiO2-catalytic SiNWs generally have no tips at the wire ends. Distinctive growth mechanisms resulting from metal- and SiO2-catalyses will be discussed. Pressure effect on the longitudinal and transverse growing rates in the fabrication of SiNWs has been examined.
| 原文 | American English |
|---|---|
| 頁(從 - 到) | 846-852 |
| 期刊 | Journal of Physical Chemistry B |
| 卷 | 108 |
| 出版狀態 | Published - 2004 |