Highly phosphorescent hollow fibers inner-coated with tungstate nanocrystals

In order to develop luminescent microtubes from natural fibers, a facile biomimetic mineralization method was designed to introduce the CaWO4-based nanocrystals into kapok lumens. The structure, composition, and luminescence properties of resultant fibers were investigated with microscopes, x-ray di...

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Veröffentlicht in:	Materials research express 2017-12, Vol.4 (12), p.125029
Hauptverfasser:	Ng, Pui Fai, Bai, Gongxun, Si, Liping, Lee, Ka I, Hao, Jianhua, Xin, John H, Fei, Bin
Format:	Artikel
Sprache:	eng
Schlagworte:	biomimetic mineralization hydrothermal synthesis kapok fiber phosphorescence tungstate nanocrystal
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description	In order to develop luminescent microtubes from natural fibers, a facile biomimetic mineralization method was designed to introduce the CaWO4-based nanocrystals into kapok lumens. The structure, composition, and luminescence properties of resultant fibers were investigated with microscopes, x-ray diffraction, thermogravimetric analysis, and fluorescence spectrometry. The yield of tungstate crystals inside kapok was significantly promoted with a process at high temperature and pressure-the hydrothermal treatment. The tungstate crystals grown on the inner wall of kapok fibers showed the same crystal structure with those naked powders, but smaller in crystal size. The resultant fiber assemblies demonstrated reduced phosphorescence intensity in comparison to the naked tungstate powders. However, the fibers gave more stable luminescence than the naked powders in wet condition. This approach explored the possibility of decorating natural fibers with high load of nanocrystals, hinting potential applications in anti-counterfeit labels, security textiles, and even flexible and soft optical devices.
doi_str_mv	10.1088/2053-1591/aa8ebd
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Res. Express</addtitle><description>In order to develop luminescent microtubes from natural fibers, a facile biomimetic mineralization method was designed to introduce the CaWO4-based nanocrystals into kapok lumens. The structure, composition, and luminescence properties of resultant fibers were investigated with microscopes, x-ray diffraction, thermogravimetric analysis, and fluorescence spectrometry. The yield of tungstate crystals inside kapok was significantly promoted with a process at high temperature and pressure-the hydrothermal treatment. The tungstate crystals grown on the inner wall of kapok fibers showed the same crystal structure with those naked powders, but smaller in crystal size. The resultant fiber assemblies demonstrated reduced phosphorescence intensity in comparison to the naked tungstate powders. However, the fibers gave more stable luminescence than the naked powders in wet condition. 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subjects	biomimetic mineralization hydrothermal synthesis kapok fiber phosphorescence tungstate nanocrystal
title	Highly phosphorescent hollow fibers inner-coated with tungstate nanocrystals
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