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Epitaxial growth of multi-structure sno2 by chemical vapor deposition

He, Dong-Ning, Hodgson, Peter and Gao, Wei-Min 2015, Epitaxial growth of multi-structure sno2 by chemical vapor deposition, Acta metallurgica sinica (English Letters), vol. 28, no. 7, pp. 946-950, doi: 10.1007/s40195-015-0284-y.

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Title Epitaxial growth of multi-structure sno2 by chemical vapor deposition
Author(s) He, Dong-Ning
Hodgson, Peter
Gao, Wei-MinORCID iD for Gao, Wei-Min orcid.org/0000-0002-7390-169X
Journal name Acta metallurgica sinica (English Letters)
Volume number 28
Issue number 7
Start page 946
End page 950
Total pages 5
Publisher Springer
Place of publication New York, N. Y.
Publication date 2015-07-01
ISSN 1006-7191
2194-1289
Keyword(s) Carbothermal method
Chemical vapor deposition
Heterostructure
Nanostructure
Tin dioxide
Science & Technology
Technology
Metallurgy & Metallurgical Engineering
OXIDE THIN-FILMS
TIN
NANOWIRES
COMPOSITES
PARAMETERS
EFFICIENCY
DESIGN
ARRAYS
Summary The nanowire and whisker heterostructures of tin dioxide were fabricated by the chemical vapor deposition technique. It was demonstrated that various structures of tin oxide can be obtained by controlling the thickness of gold layer and the partial pressure of source vapor at growing sites. 12.5 and 25 nm thicknesses are preferable for the epitaxial growth of nanowires and heterostructure through vapor-liquid-solid mechanism, respectively. The tin dioxide whiskers with core-shell structure were fabricated by vapor-solid mechanism. Meanwhile, the influences of various factors on the tin dioxide growth are also discussed.
Language eng
DOI 10.1007/s40195-015-0284-y
Field of Research 091202 Composite and Hybrid Materials
091205 Functional Materials
091305 Energy Generation, Conversion and Storage Engineering
Socio Economic Objective 850405 Transformation of Black Coal into Electricity
HERDC Research category C1 Refereed article in a scholarly journal
ERA Research output type C Journal article
Copyright notice ©2015, Springer
Free to Read? Yes
Persistent URL http://hdl.handle.net/10536/DRO/DU:30078083

Document type: Journal Article
Collections: Institute for Frontier Materials
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Every reasonable effort has been made to ensure that permission has been obtained for items included in DRO. If you believe that your rights have been infringed by this repository, please contact drosupport@deakin.edu.au.