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Journal of Sol-Gel Science and Technology

Erschienen in:

01.11.2013 | Original Paper

Growth, structure and optical properties of tartaric acid-templated silica nanotubes by sol–gel method

verfasst von: Fei Gao, Yanhua Song, Ye Sheng, Chunming Lin, Qisheng Huo, Haifeng Zou

Erschienen in: Journal of Sol-Gel Science and Technology | Ausgabe 2/2013

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Abstract

Photoluminescent nano material has been reported as an intriguing field during the past few decades. In this article, tartaric-templated silica nanotubes were conveniently synthesized by sol–gel method. X-ray diffraction analysis, scanning electron microscopy, transmission electron microscopy, fourier transform infrared spectra and photoluminescence spectra analysis were employed to characterize the growth, structure, morphology and optical property of the products. It is found that tartaric templates can form spindle/spherical-like aggregates composed of many sheets under static/stirring condition, which lead to the different shapes of silica nanotubes. Then the probable strategies for silica nanotubes templating with tartaric acid were described particularly. Hydrogen-bond interaction, supramolecular interaction and a competition of various effects may be the reasons of the nanotubes formation. Moreover, under ultraviolet light excitation, the silica nanotubes exhibited blue emission and luminescent intensity of the tubes prepared under the static condition is much stronger than the stirring ones, mostly because of more defect centers in the structures obtained under stirring condition.

Vorheriger Artikel Structural and optical characterizations of rare earth pentaphosphates LnP5O14 (Ln = La, Gd) synthesized by the sol–gel process

Nächster Artikel Preparation and photocatalytic antibacterial property of nitrogen doped TiO2 nanoparticles

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Titel: Growth, structure and optical properties of tartaric acid-templated silica nanotubes by sol–gel method
verfasst von: Fei Gao
Yanhua Song
Ye Sheng
Chunming Lin
Qisheng Huo
Haifeng Zou
Publikationsdatum: 01.11.2013
Verlag: Springer US
Erschienen in: Journal of Sol-Gel Science and Technology / Ausgabe 2/2013
Print ISSN: 0928-0707
Elektronische ISSN: 1573-4846
DOI: https://doi.org/10.1007/s10971-013-3152-0

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