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Journal of Materials Science: Materials in Electronics
Erschienen in: Journal of Materials Science: Materials in Electronics 7/2013

01.07.2013

On the formation of voids, etched holes, and GaO particles configuration during the nanowires growth by VLS method on GaAs substrate

verfasst von: Khac An Dao, Tien Dai Nguyen, Anh Tuan Phan, Hung Manh Do

Erschienen in: Journal of Materials Science: Materials in Electronics | Ausgabe 7/2013

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Abstract

The nanowires grown on GaAs semiconductor substrate play very important roles in nanoelectronics, optoelectronics, and sensors. The nanowires can be produced by many methods among the existing methods of nanowires growth on GaAs semiconductor, the vapor–liquid–solid (VLS) method appears to be simple, low cost, and popular. However, this method in practice requires further investigations concerning the growth mechanisms, size effects, and the role of Au catalyst metal diffusion, as well as the effect of technological conditions. Several undesired phenomena, which strongly influence the morphologies, features, and applications of the grown nanowires, can occur as the result of using thick Au catalyst layers, high growth temperatures, and/or small vapor volume in the closed ampoule. This paper aims to examine simultaneous formation of voids, etched holes, and GaO particles along with the nanowires grown by VLS method on GaAs substrate. As the result, typical technological conditions for the nanowires growth with better characterizations are proposed.
Vorheriger Artikel Reaction mechanism and kinetics analysis of the phase transformation of TiO2 from the anatase phase to the rutile phase
Nächster Artikel Synthesis and electrical properties of Pb(Zr0.52Ti0.48)O3 thick films embedded with ZnO nanoneedles prepared by the hybrid sol–gel method

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Metadaten
Titel
On the formation of voids, etched holes, and GaO particles configuration during the nanowires growth by VLS method on GaAs substrate
verfasst von
Khac An Dao
Tien Dai Nguyen
Anh Tuan Phan
Hung Manh Do
Publikationsdatum
01.07.2013
Verlag
Springer US
Erschienen in
Journal of Materials Science: Materials in Electronics / Ausgabe 7/2013
Print ISSN: 0957-4522
Elektronische ISSN: 1573-482X
DOI
https://doi.org/10.1007/s10854-013-1126-1

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