Vertically oriented epitaxial germanium nanowires on silicon substrates using thin germanium buffer layers
Date
2010
Authors
Jung, Jae Hun
Yoon, Hyun Sik
Kim, Yu Lee
Song, Man Suk
Kim, Yong
Chen, Zhi Gang
Zou, Jin
Kang, Jung-Hyun
Joyce, Hannah J.
Gao, Qiang
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Volume Title
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Institute of Physics Publishing
Abstract
We demonstrate a method to realize vertically oriented Ge nanowires on Si(111) substrates. Ge nanowires were grown by chemical vapor deposition using Au nanoparticles to seed nanowire growth via a vapor-liquid-solid growth mechanism. Rapid oxidation of Si during Au nanoparticle application inhibits the growth of vertically oriented Ge nanowires directly on Si. The present method employs thin Ge buffer layers grown at low temperature less than 600 °C to circumvent the oxidation problem. By using a thin Ge buffer layer with root-mean-square roughness of ∼ 2nm, the yield of vertically oriented Ge nanowires is as high as 96.3%. This yield is comparable to that of homoepitaxial Ge nanowires. Furthermore, branched Ge nanowires could be successfully grown on these vertically oriented Ge nanowires by a secondary seeding technique. Since the buffer layers are grown under moderate conditions without any high temperature processing steps, this method has a wide process window highly suitable for Si-based microelectronics.
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Keywords
Keywords: Au nanoparticle; Germanium nanowires; High-temperature processing; Homoepitaxial; Low temperatures; Nanowire growth; Process window; Rapid oxidation; Root mean square roughness; Seeding techniques; Si(111) substrate; Si-based microelectronics; Silicon sub
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Source
Nanotechnology
Type
Journal article
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2037-12-31
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