Large-scale synthesis of urchin-like mesoporous TiO2 hollow spheres by targeted etching and their photoelectrochemical properties

J.H. Pan; X.Z. Wang; Q. Huang; C. Shen; Z.Y. Koh; Q. Wang; A. Engel; D.W. Bahnemann

doi:10.1002/adfm.201300946

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Originalsprache	Englisch
Seiten (von - bis)	95-104
Seitenumfang	10
Fachzeitschrift	Advanced functional materials
Jahrgang	24
Ausgabenummer	1
Frühes Online-Datum	21 Aug. 2013
Publikationsstatus	Veröffentlicht - 8 Jan. 2014

Abstract

A versatile targeted etching strategy is developed for the large-scale synthesis of urchin-like mesoporous TiO ₂ hollow spheres (UMTHS) with tunable particle size. Its key feature is the use of a low-temperature hydrothermal reaction of surface-fluorinated, amorphous, hydrous TiO ₂ solid spheres (AHTSS) under the protection of a polyvinylpyrrolidone (PVP) coating. With the confinement of PVP and water penetration, the highly porous AHTSS are selectively etched and hollowed by fluoride without destroying their spherical morphology. Meanwhile TiO ₂ hydrates are gradually crystallized and their growth is preferentially along anatase (101) planes, reconstructing an urchin-like shell consisting of numerous radially arranged single-crystal anatase nanothorns. Complex hollow structures, such as core-shell and yolk-shell structures, can also be easily synthesized via additional protection of the interior by pre-filling AHTSS with polyethylene glycol (PEG). The hollowing transformation is elucidated by the synergetic effect of etching, PVP coating, low hydrothermal reaction temperature, and the unique microstructure of AHTSS. The synthesized UMTHS with a large surface area of up to 128.6 m ² g ^-1 show excellent light-harvesting properties and present superior performances in photocatalytic removal of gaseous nitric oxide (NO) and photoelectrochemical solar energy conversion as photoanodes for dye-sensitized mesoscopic solar cells.

ASJC Scopus Sachgebiete

Chemie (insg.)
Allgemeine Chemie
Werkstoffwissenschaften (insg.)
Allgemeine Materialwissenschaften
Physik und Astronomie (insg.)
Physik der kondensierten Materie

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Large-scale synthesis of urchin-like mesoporous TiO₂ hollow spheres by targeted etching and their photoelectrochemical properties. / Pan, J.H.; Wang, X.Z.; Huang, Q. et al.
in: Advanced functional materials, Jahrgang 24, Nr. 1, 08.01.2014, S. 95-104.

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review

Pan, JH, Wang, XZ, Huang, Q, Shen, C, Koh, ZY, Wang, Q, Engel, A & Bahnemann, DW 2014, 'Large-scale synthesis of urchin-like mesoporous TiO₂ hollow spheres by targeted etching and their photoelectrochemical properties', Advanced functional materials, Jg. 24, Nr. 1, S. 95-104. https://doi.org/10.1002/adfm.201300946

Pan, J. H., Wang, X. Z., Huang, Q., Shen, C., Koh, Z. Y., Wang, Q., Engel, A., & Bahnemann, D. W. (2014). Large-scale synthesis of urchin-like mesoporous TiO₂ hollow spheres by targeted etching and their photoelectrochemical properties. Advanced functional materials, 24(1), 95-104. https://doi.org/10.1002/adfm.201300946

Pan JH, Wang XZ, Huang Q, Shen C, Koh ZY, Wang Q et al. Large-scale synthesis of urchin-like mesoporous TiO₂ hollow spheres by targeted etching and their photoelectrochemical properties. Advanced functional materials. 2014 Jan 8;24(1):95-104. Epub 2013 Aug 21. doi: 10.1002/adfm.201300946

Pan, J.H. ; Wang, X.Z. ; Huang, Q. et al. / Large-scale synthesis of urchin-like mesoporous TiO₂ hollow spheres by targeted etching and their photoelectrochemical properties. in: Advanced functional materials. 2014 ; Jahrgang 24, Nr. 1. S. 95-104.

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abstract = "A versatile targeted etching strategy is developed for the large-scale synthesis of urchin-like mesoporous TiO 2 hollow spheres (UMTHS) with tunable particle size. Its key feature is the use of a low-temperature hydrothermal reaction of surface-fluorinated, amorphous, hydrous TiO 2 solid spheres (AHTSS) under the protection of a polyvinylpyrrolidone (PVP) coating. With the confinement of PVP and water penetration, the highly porous AHTSS are selectively etched and hollowed by fluoride without destroying their spherical morphology. Meanwhile TiO 2 hydrates are gradually crystallized and their growth is preferentially along anatase (101) planes, reconstructing an urchin-like shell consisting of numerous radially arranged single-crystal anatase nanothorns. Complex hollow structures, such as core-shell and yolk-shell structures, can also be easily synthesized via additional protection of the interior by pre-filling AHTSS with polyethylene glycol (PEG). The hollowing transformation is elucidated by the synergetic effect of etching, PVP coating, low hydrothermal reaction temperature, and the unique microstructure of AHTSS. The synthesized UMTHS with a large surface area of up to 128.6 m 2 g -1 show excellent light-harvesting properties and present superior performances in photocatalytic removal of gaseous nitric oxide (NO) and photoelectrochemical solar energy conversion as photoanodes for dye-sensitized mesoscopic solar cells.",

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AU - Pan, J.H.

AU - Wang, X.Z.

AU - Huang, Q.

AU - Shen, C.

AU - Koh, Z.Y.

AU - Wang, Q.

AU - Engel, A.

AU - Bahnemann, D.W.

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N2 - A versatile targeted etching strategy is developed for the large-scale synthesis of urchin-like mesoporous TiO 2 hollow spheres (UMTHS) with tunable particle size. Its key feature is the use of a low-temperature hydrothermal reaction of surface-fluorinated, amorphous, hydrous TiO 2 solid spheres (AHTSS) under the protection of a polyvinylpyrrolidone (PVP) coating. With the confinement of PVP and water penetration, the highly porous AHTSS are selectively etched and hollowed by fluoride without destroying their spherical morphology. Meanwhile TiO 2 hydrates are gradually crystallized and their growth is preferentially along anatase (101) planes, reconstructing an urchin-like shell consisting of numerous radially arranged single-crystal anatase nanothorns. Complex hollow structures, such as core-shell and yolk-shell structures, can also be easily synthesized via additional protection of the interior by pre-filling AHTSS with polyethylene glycol (PEG). The hollowing transformation is elucidated by the synergetic effect of etching, PVP coating, low hydrothermal reaction temperature, and the unique microstructure of AHTSS. The synthesized UMTHS with a large surface area of up to 128.6 m 2 g -1 show excellent light-harvesting properties and present superior performances in photocatalytic removal of gaseous nitric oxide (NO) and photoelectrochemical solar energy conversion as photoanodes for dye-sensitized mesoscopic solar cells.

AB - A versatile targeted etching strategy is developed for the large-scale synthesis of urchin-like mesoporous TiO 2 hollow spheres (UMTHS) with tunable particle size. Its key feature is the use of a low-temperature hydrothermal reaction of surface-fluorinated, amorphous, hydrous TiO 2 solid spheres (AHTSS) under the protection of a polyvinylpyrrolidone (PVP) coating. With the confinement of PVP and water penetration, the highly porous AHTSS are selectively etched and hollowed by fluoride without destroying their spherical morphology. Meanwhile TiO 2 hydrates are gradually crystallized and their growth is preferentially along anatase (101) planes, reconstructing an urchin-like shell consisting of numerous radially arranged single-crystal anatase nanothorns. Complex hollow structures, such as core-shell and yolk-shell structures, can also be easily synthesized via additional protection of the interior by pre-filling AHTSS with polyethylene glycol (PEG). The hollowing transformation is elucidated by the synergetic effect of etching, PVP coating, low hydrothermal reaction temperature, and the unique microstructure of AHTSS. The synthesized UMTHS with a large surface area of up to 128.6 m 2 g -1 show excellent light-harvesting properties and present superior performances in photocatalytic removal of gaseous nitric oxide (NO) and photoelectrochemical solar energy conversion as photoanodes for dye-sensitized mesoscopic solar cells.

KW - dye-sensitized solar cells

KW - hollow spheres

KW - hydrothermal processes

KW - photocatalysis

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Research@Leibniz University

Large-scale synthesis of urchin-like mesoporous TiO₂ hollow spheres by targeted etching and their photoelectrochemical properties

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