In this study, one-dimensional and quasi-one-dimensional tin dioxide nanowires and nan-owalls were fabricated by the use of the chemical vapor deposition technique. It was demonstrated that the growth and nanostructure of tin oxide can be controlled by varying the thickness of gold layer and the partial pressure of vapor at growing sites. Nanowires with a core-shell structure, i.e., pure tin core and tin oxide shell, were synthesized from C-SnO2 powders at a mol ratio of C/SnO2=3/5 on both silicon and Lanthanum Strontium Co-balt Ferrite ceramic wafers through the vapor-solid mechanism. The conditions that are favorable to the growth of core-shell structure nanowires are investigated.
History
Event
Advances in Materials & Processing Technologies. Conference (15th : 2012 : Wollongong, New South Wales)
Pagination
1 - 6
Publisher
University of Wollongong
Location
Wollongong, New South Wales
Place of publication
Wollongong, N. S. W.
Start date
2012-09-23
End date
2012-09-26
Language
eng
Publication classification
E1 Full written paper - refereed
Title of proceedings
AMPT 2012 : Proceedings of the 15th Advances in Materials & Processing Technologies Conference