Synthesis of Si-Ge oxide nanowires via the transformation of Si-Ge thin films with self-assembled Au catalysts

J. H. He; T. H. Wu; C. L. Hsin; L. J. Chen; Z. L. Wang

doi:10.1149/1.2001792

Synthesis of Si-Ge oxide nanowires via the transformation of Si-Ge thin films with self-assembled Au catalysts

J. H. He^*, T. H. Wu, C. L. Hsin, L. J. Chen, Z. L. Wang

^*Corresponding author for this work

Computer, Electrical and Mathematical Sciences and Engineering

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

A technique has been developed to transform a Si-Ge thin film into Si-Ge oxide nanowires with the assistance of Au particles through a three-step annealing process. A honeycomb network of Au colloidal nanoparticles was self-assembled; 400°C annealing removes the surface surfactant; 800°C annealing forms hexagonally self-assembled Au particles on the thin-film surface; finally, a 1075°C annealing results in the growth of oxide nanowires on the surfaces of Au particles. Synthesized nanowires have an emission peak at 3.3 eV. This technique is useful for growing silicon oxide nanowires with a tunable amount of Ge doping.

Original language	English (US)
Pages (from-to)	G254-G257
Journal	Electrochemical and Solid-State Letters
Volume	8
Issue number	10
DOIs	https://doi.org/10.1149/1.2001792
State	Published - Oct 7 2005

ASJC Scopus subject areas

Chemical Engineering(all)
Materials Science(all)
Physical and Theoretical Chemistry
Electrochemistry
Electrical and Electronic Engineering

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title = "Synthesis of Si-Ge oxide nanowires via the transformation of Si-Ge thin films with self-assembled Au catalysts",

abstract = "A technique has been developed to transform a Si-Ge thin film into Si-Ge oxide nanowires with the assistance of Au particles through a three-step annealing process. A honeycomb network of Au colloidal nanoparticles was self-assembled; 400°C annealing removes the surface surfactant; 800°C annealing forms hexagonally self-assembled Au particles on the thin-film surface; finally, a 1075°C annealing results in the growth of oxide nanowires on the surfaces of Au particles. Synthesized nanowires have an emission peak at 3.3 eV. This technique is useful for growing silicon oxide nanowires with a tunable amount of Ge doping.",

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AU - He, J. H.

AU - Wu, T. H.

AU - Hsin, C. L.

AU - Chen, L. J.

AU - Wang, Z. L.

PY - 2005/10/7

Y1 - 2005/10/7

N2 - A technique has been developed to transform a Si-Ge thin film into Si-Ge oxide nanowires with the assistance of Au particles through a three-step annealing process. A honeycomb network of Au colloidal nanoparticles was self-assembled; 400°C annealing removes the surface surfactant; 800°C annealing forms hexagonally self-assembled Au particles on the thin-film surface; finally, a 1075°C annealing results in the growth of oxide nanowires on the surfaces of Au particles. Synthesized nanowires have an emission peak at 3.3 eV. This technique is useful for growing silicon oxide nanowires with a tunable amount of Ge doping.

AB - A technique has been developed to transform a Si-Ge thin film into Si-Ge oxide nanowires with the assistance of Au particles through a three-step annealing process. A honeycomb network of Au colloidal nanoparticles was self-assembled; 400°C annealing removes the surface surfactant; 800°C annealing forms hexagonally self-assembled Au particles on the thin-film surface; finally, a 1075°C annealing results in the growth of oxide nanowires on the surfaces of Au particles. Synthesized nanowires have an emission peak at 3.3 eV. This technique is useful for growing silicon oxide nanowires with a tunable amount of Ge doping.

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JO - Electrochemical and Solid-State Letters

JF - Electrochemical and Solid-State Letters

IS - 10

ER -

Synthesis of Si-Ge oxide nanowires via the transformation of Si-Ge thin films with self-assembled Au catalysts

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