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- Title
Solid-phase diffusion mechanism for GaAs nanowire growth.
- Authors
Persson, Ann I.; Larsson, Magnus W.; Stenström, Stig; Ohlsson, B. Jonas; Samuelson, Lars; Wallenberg, L. Reine
- Abstract
Controllable production of nanometre-sized structures is an important field of research, and synthesis of one-dimensional objects, such as nanowires, is a rapidly expanding area with numerous applications, for example, in electronics, photonics, biology and medicine. Nanoscale electronic devices created inside nanowires, such as p–n junctions, were reported ten years ago. More recently, hetero-structure devices with clear quantum-mechanical behaviour have been reported, for example the double-barrier resonant tunnelling diode and the single-electron transistor. The generally accepted theory of semiconductor nanowire growth is the vapour–liquid–solid (VLS) growth mechanism, based on growth from a liquid metal seed particle. In this letter we suggest the existence of a growth regime quite different from VLS. We show that this new growth regime is based on a solid-phase diffusion mechanism of a single component through a gold seed particle, as shown by in situ heating experiments of GaAs nanowires in a transmission electron microscope, and supported by highly resolved chemical analysis and finite element calculations of the mass transport and composition profiles.
- Subjects
ELECTRONIC equipment; NANOWIRES; NANOSTRUCTURED materials; NANOTECHNOLOGY; SEMICONDUCTORS; ELECTRONIC materials
- Publication
Nature Materials, 2004, Vol 3, Issue 10, p677
- ISSN
1476-1122
- Publication type
Article
- DOI
10.1038/nmat1220