Preparation and size control of highly monodisperse vinyl functionalized silica spheres

► Silica spheres functionalized by vinyl groups are prepared in a one-step reaction in aqueous solution. ► Our method guarantees a good monodispersity and reliable controllability of the silica spheres. ► The size of the silica spheres could be controlled by adjusting the reaction temperature. Vinyl...

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Veröffentlicht in:	Applied surface science 2012-01, Vol.258 (6), p.1910-1914
Hauptverfasser:	Yin, Jianbo, Deng, Tiansong, Zhang, Gengmin
Format:	Artikel
Sprache:	eng
Schlagworte:	Aqueous solutions Elevated Face centered cubic lattice Monodisperse Photonic crystal Photonic crystals Scanning electron microscopy Silica sphere Silicon dioxide Temperature Three dimensional Transmission electron microscopy
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container_end_page	1914
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container_title	Applied surface science
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creator	Yin, Jianbo Deng, Tiansong Zhang, Gengmin
description	► Silica spheres functionalized by vinyl groups are prepared in a one-step reaction in aqueous solution. ► Our method guarantees a good monodispersity and reliable controllability of the silica spheres. ► The size of the silica spheres could be controlled by adjusting the reaction temperature. Vinyl functionalized silica spheres (VFSSs) are prepared by one-step reaction using the aqueous solution of organosilane. The synthetic method is effective and reproducible with one process used. The VFSSs could self-assemble into three-dimensional (3D) fcc photonic crystals. Scanning electron microscopy (SEM) and transmission electron microscopy (TEM) observations revealed that the VFSSs were highly monodisperse and their surfaces were sufficiently smooth. The size of the VFSSs could be controlled by adjusting the reaction temperature. The sphere size reached its minimum, 394nm, around 45°C and became larger when the temperature was either elevated or lowered. The maximum sphere size, 515nm, was obtained around 15°C. This work is expected to extend to the preparation and size control of other kinds of hybrid silica spheres.
doi_str_mv	10.1016/j.apsusc.2011.06.155
format	Article
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Vinyl functionalized silica spheres (VFSSs) are prepared by one-step reaction using the aqueous solution of organosilane. The synthetic method is effective and reproducible with one process used. The VFSSs could self-assemble into three-dimensional (3D) fcc photonic crystals. Scanning electron microscopy (SEM) and transmission electron microscopy (TEM) observations revealed that the VFSSs were highly monodisperse and their surfaces were sufficiently smooth. The size of the VFSSs could be controlled by adjusting the reaction temperature. The sphere size reached its minimum, 394nm, around 45°C and became larger when the temperature was either elevated or lowered. The maximum sphere size, 515nm, was obtained around 15°C. 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Vinyl functionalized silica spheres (VFSSs) are prepared by one-step reaction using the aqueous solution of organosilane. The synthetic method is effective and reproducible with one process used. The VFSSs could self-assemble into three-dimensional (3D) fcc photonic crystals. Scanning electron microscopy (SEM) and transmission electron microscopy (TEM) observations revealed that the VFSSs were highly monodisperse and their surfaces were sufficiently smooth. The size of the VFSSs could be controlled by adjusting the reaction temperature. The sphere size reached its minimum, 394nm, around 45°C and became larger when the temperature was either elevated or lowered. The maximum sphere size, 515nm, was obtained around 15°C. This work is expected to extend to the preparation and size control of other kinds of hybrid silica spheres.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.apsusc.2011.06.155</doi><tpages>5</tpages></addata></record>
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subjects	Aqueous solutions Elevated Face centered cubic lattice Monodisperse Photonic crystal Photonic crystals Scanning electron microscopy Silica sphere Silicon dioxide Temperature Three dimensional Transmission electron microscopy
title	Preparation and size control of highly monodisperse vinyl functionalized silica spheres
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