The effect of hydrothermal conditions on the mesoporous structure of TiO2 nanotubes

Bavykin, Dmitry V.; Parmon, Valentin N.; Lapkin, Alexei; Walsh, Frank C.

doi:10.1039/b406378c

Cited by 701 publications

(568 citation statements)

References 34 publications

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“…1, the surface areas (197-312 m 2 g À1 ) and outer diameters of the TNs (5-13 nm) increased with the rising of heating temperature. However, for TN (180-2), the tubular structure disappeared, and nanosized fibers formed instead, which was consistent with the results reported by Lee et al [22], Yuan and Su [23] and Bavykin et al [24]. XRD results of TP showed that the raw material was a mixture of rutile and anatase (Fig.…”

Section: Characterization Of Protonated Tns and Tpsupporting

confidence: 82%

Adsorption behavior of arsenic onto protonated titanate nanotubes prepared via hydrothermal method

Niu

Wang

Shi

et al. 2009

Microporous and Mesoporous Materials

119

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a b s t r a c tA mesoporous material, titanate nanotubes (TNs) with different surface areas (197-312 m 2 g À1 ) and pore size diameters (2-6 nm) was synthesized by alkaline hydrothermal method. Their adsorption abilities to arsenic, the notoriously poisonous inorganic contaminant in groundwater were evaluated. Batch experiments showed that the adsorption of arsenate [As (V)] was more favored in acid solution, while the uptake of arsenite [As (III)] was preferred in alkaline solution. The maximum uptake of As (V) and As (III) calculated by Langmuir equation was 208 mg g À1 (pH 3.0) and 60 mg g À1 (pH 7.0) respectively achieved on TN (180-1) adsorbent (312 m 2 g À1 , internal diameter, 5 nm), which was 33 and 10 times greater than those of nanosized titania particles (40-50 nm, 15 mg g À1 ). Silicate anions, phosphate and sulfate had little effect on arsenic adsorption onto TNs. In several real water samples, TNs still showed high uptake efficiency to arsenic at pH 7.0. More than 80% of As (III) and 95% of As (V) adsorbed on TNs could be desorbed with 1.0 M NaOH solution within 1 h. Comparison study indicated that all the tubular titanate materials exhibited great adsorption capacity to arsenic regardless their surface areas. Since the equipment required for TNs synthesis is simple and cheap, and alkali solutions are reusable, TNs can be regarded as an efficient, low-cost adsorbent for the removal of arsenic.

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Section: Characterization Of Protonated Tns and Tpsupporting

confidence: 82%

Adsorption behavior of arsenic onto protonated titanate nanotubes prepared via hydrothermal method

Niu

Wang

Shi

et al. 2009

Microporous and Mesoporous Materials

119

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“…Nowadays, TiO 2 nanotubes are synthesized by several methods, including sol-gel transcription [16,17], hydrothermal processes [18,19] and anodization of titanium in fluoride-based electrolytes [20,21]. The latter is the most promising because it allows obtaining highly ordered nanotube arrays, and their dimensions (length, diameter, and tube wall) can be precisely controlled [22].…”

Section: Introductionmentioning

confidence: 99%

Effect of Reynolds number and lithium cation insertion on titanium anodization

Borràs-Ferrís

Sánchez-Tovar

Blasco‐Tamarit

et al. 2016

Electrochimica Acta

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ElsevierBorràs-Ferrís, J.; Sánchez Tovar, R.; Blasco-Tamarit, E.; Fernández Domene, RM.; GarciaAnton, J. (2016). Effect of Reynolds number and lithium cation insertion on titanium anodization. Electrochimica Acta. 196:24-32. doi:10.1016Acta. 196:24-32. doi:10. /j.electacta.2016 Tel. and Re. The latter is due to the fact that the hydrodynamic conditions eliminate part of the initiation layer formed over the tube-tops, which is related to an increase of the photocurrent in the photoelectrochemical water splitting. Besides, the photogenerated electron-hole pairs are facilitated by Li + intercalation. Finally, this work confirms that there is a synergistic effect between Re and Li + intercalation.

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“…The growing mechanism of BaTiO 3 nanotubes is similar to the formation of TiO 2 nanotubes. 23 The high-resolution TEM image ( Figure S1a of the Supporting Information) reveals d spacing of 0.28 nm for adjacent lattice fringes, which corresponds to the (110) crystalline plane of tetragonal BaTiO 3 .…”

mentioning

confidence: 99%

BaTiO₃ Nanotubes-Based Flexible and Transparent Nanogenerators

Lin

Yang

et al. 2012

J. Phys. Chem. Lett.

343

239

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ABSTRACT:We have developed a simple, cost-effective, and scalable approach to fabricate a piezoelectric nanogenerator (NG) with stretchable and flexible characteristics using BaTiO 3 nanotubes, which were synthesized by the hydrothermal method. The NG was fabricated by making a composite of the nanotubes with polymer poly(dimethylsiloxane) (PDMS). The peak open-circuit voltage and short-circuit current of the NG reached a high level of 5.5 V and 350 nA (current density of 350 nA/cm 2 ), respectively. It was used to directly drive a commercial liquid crystal display. The BaTiO 3 nanotubes/PDMS composite is highly transparent and useful for a large-scale (11 × 11 cm) fabrication of lead-free piezoelectric NG. NGs fabricated by PZT nanofibers 16 and nanowires 17 have been demonstrated to provide output voltages of 1.63 and 0.7 V, respectively. However, the component lead in PZT has the concern of toxic effect toward human health and environmental problems.18 Consequently, it has motivated the search for perovskite piezoelectric materials with lead-free properties comparable to PZT with a reduced environmental impact. BaTiO 3 thin-film-based NG fabricated by soft lithographic printing technique can produce an output voltage of 1.0 V and current density of 0.19 μA/cm 2 . 19 Although the abovementioned result is outstanding, there is no report about using BaTiO 3 nanotubes to fabricate a NG. As the size of the piezoelectric materials is reduced to the nanoscale, the conversion efficiency of mechanical energy has been found to be improved dramatically, attributing to the larger piezoelectric coefficients and deformations, which are proportional to the generated potential. 20−22 In this letter, lead-free BaTiO 3 nanotubes were used to fabricate the piezoelectric NG. A large number of high-quality BaTiO 3 nanotubes were synthesized through a hydrothermal method. By forming a composite of BaTiO 3 nanotubes with poly(dimethylsiloxane) (PDMS) polymer, flexible and transparent NG was developed easily after applying a direct poling process. Under periodic external mechanical deformation by a linear motor, we obtained very stable and high output piezoelectric signals, that is, an open-circuit voltage (V oc ) of 5.5 V and short-circuit current (I sc ) exceeding 350 nA. The NG was further demonstrated to be easily scaled-up over 11 × 11 cm and can continuously drive a commercial LCD under the biomechanical movements of a human skin.The NG mainly consists of five layers as schematically shown in Figure 1a. The deposited Au/Cr films act as top and bottom electrodes, and the BaTiO 3 nanotubes and PDMS composite mixed with a 3 wt % ratio serve as the source of piezoelectric potential generation under external stress. The polystyrene (PS) substrate and pure PDMS worked as the supporting and protecting layers to sustain the conformation of NG. Figure 1b shows the cross-sectional scanning electron microscope (SEM) image of a 300 μm thick BaTiO 3 nanotubes/PDMS composite, which demonstrates the flexible property of the developed NG. ...

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The effect of hydrothermal conditions on the mesoporous structure of TiO2 nanotubes

Cited by 701 publications

References 34 publications

Adsorption behavior of arsenic onto protonated titanate nanotubes prepared via hydrothermal method

Adsorption behavior of arsenic onto protonated titanate nanotubes prepared via hydrothermal method

Effect of Reynolds number and lithium cation insertion on titanium anodization

BaTiO₃ Nanotubes-Based Flexible and Transparent Nanogenerators

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The effect of hydrothermal conditions on the mesoporous structure of TiO2 nanotubes

Cited by 701 publications

References 34 publications

Adsorption behavior of arsenic onto protonated titanate nanotubes prepared via hydrothermal method

Adsorption behavior of arsenic onto protonated titanate nanotubes prepared via hydrothermal method

Effect of Reynolds number and lithium cation insertion on titanium anodization

BaTiO3 Nanotubes-Based Flexible and Transparent Nanogenerators

Contact Info

Product

Resources

About

BaTiO₃ Nanotubes-Based Flexible and Transparent Nanogenerators