Conversion of Hexagonal Sb2Te3 Nanoplates into Nanorings Driven by Growth Temperature

We describe a novel route for the conversion of hexagonal Sb2Te3 nanoplates into nanorings driven by growth temperature in a simple solvothermal process. The transmission electron microscopy was employed to investigate systemically the morphology, size, crystallinity, and microstructure of the as-pr...

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Veröffentlicht in:	Langmuir 2011-01, Vol.27 (2), p.815-819
Hauptverfasser:	Wang, Wenzhong, Long, Dong, Liang, Yujie, Zhang, Guling, Zeng, Baoqing, He, Qingyu
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Sprache:	eng
Schlagworte:	Chemistry Exact sciences and technology General and physical chemistry Materials: Nano-and Mesostructured Materials, Polymers, Gels, Liquid Crystals, Composites
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creator	Wang, Wenzhong Long, Dong Liang, Yujie Zhang, Guling Zeng, Baoqing He, Qingyu
description	We describe a novel route for the conversion of hexagonal Sb2Te3 nanoplates into nanorings driven by growth temperature in a simple solvothermal process. The transmission electron microscopy was employed to investigate systemically the morphology, size, crystallinity, and microstructure of the as-prepared products. The experiments indicated that the growth temperature had a great effect on the morphology of antimony telluride nanostructures. When the experiments were conducted at 200 °C, the hexagonal antimony telluride nanoplates were obtained. However, if the experiments were carried out at higher temperature of 230 °C, the hexagonal antimony telluride nanorings were achieved by dissolution of the inner part with a higher density of defects of the hexagonal nanoplates for the first time. A possible formation mechanism was proposed on the basis of experimental results and analysis. This work may open a new rational route for the synthesis of the hexagonal antimony telluride nanorings, which may have scientific and technological applications in various functional devices.
doi_str_mv	10.1021/la103937f
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title	Conversion of Hexagonal Sb2Te3 Nanoplates into Nanorings Driven by Growth Temperature
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