Photocatalytic Degradation of Aqueous Nitrobenzene by Nanocrystalline TiO<sub>2</sub>

Tayade, Rajesh J.; Kulkarni, R.G.; Jasra, Raksh V.

doi:10.1021/ie051060m

Cited by 157 publications

(122 citation statements)

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“…4, it is difficult to differentiate the DRS spectra of MNTs and ANTs. As recommended in the literature [16], the differential calculation was employed in order to obtain precise adsorption band edges of the samples. The inset in Fig.…”

Section: Resultsmentioning

confidence: 99%

Preparation and Photocatalytic Performance of Anatase/Rutile Mixed-Phase TiO2 Nanotubes

Zhang

Chen

2010

Catal Lett

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Anatase-dominated anatase/rutile mixed-phase TiO 2 nanotubes were prepared by decorating TiO 2 on the hydrothermally synthesized TiO 2 -derived nanotubes via liquid phase deposition and subsequent annealing. The morphology and structure of as-prepared TiO 2 nanotubes were characterized by transmission electron microscopy, X-ray diffraction, Raman spectra, and UV-Vis diffuse reflectance spectra. The separation efficiency of photogenerated carriers was investigated by photoluminescence spectra. The photocatalytic activity was evaluated by methyl orange decomposition under UV illumination. The results indicated that the mixed-phase TiO 2 nanotubes consisting of anatase and rutile (82/18 w/w) were successfully fabricated. Due to the synergistic effect of mixed anatase and rutile phases, the anatase-dominated anatase/ rutile mixed-phase TiO 2 nanotubes exhibited superior photocatalytic activity. The apparent rate constant k of the photocatalytic reaction for the TiO 2 nanotubes with and without decoration was 0.0528 and 0.0126, respectively.

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Section: Resultsmentioning

confidence: 99%

Preparation and Photocatalytic Performance of Anatase/Rutile Mixed-Phase TiO2 Nanotubes

Zhang

Chen

2010

Catal Lett

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“…The literature reports approaches for the synthesis of nanoparticles of titania, including thermal hydrolysis [17,18], sol-gel [19,20], hydro/solvothermal method [21,22] and microemulsion processes [23,24]. Among them, solvothermal and microemulsion methods are extensively used for the preparation of nanomaterials.…”

Section: -Introductionmentioning

confidence: 99%

Pigments based on Cr and Sb doped TiO 2 prepared by microemulsion-mediated solvothermal synthesis for inkjet printing on ceramics

et al. 2015

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Nanoparticles of the ceramic pigment with composition Ti 0.97 Cr 0.015 Sb 0.015 O 2 were prepared by microemulsion-mediated solvothermal method at 180 ºC. Anatase or rutile single phase was obtained depending on the synthesis conditions. Scanning electron microscope analysis showed the formation of nanospheres with particle size around 600 nm. The anatase to rutile transformation temperature was determined by Raman spectroscopy. The evolution of the colour was studied, and it was related with the polymorphic transition. Yellow nanopigments were obtained at low temperature and huge orange colour was observed at high temperature. Nanopigments prepared at 180 ºC were tested with an industrial frit. Similar chromatic coordinates of an industrial orange ceramic pigment obtained at high temperatures were observed. -potential values of the nanoparticles were  -57 mV. The size, shape, colour and electrostatic stability of these nanoparticles make them potential candidates to be applied in glazes or inkjet printers as orange ceramic pigments.

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“…According to the paper proposed the combined method, the high temperature during calcination may affect the textural properties of the material and packing which may result in lower specific surface area and pore volume. The formation of metal oxide by-product by calcination also reduces the surface area and pore volume (Tayade et al, 2006). However, this consideration is ambiguous and vague and is not a conclusion based on the exact experimental results.…”

Section: Introductionmentioning

confidence: 99%

Activated MIL-53(Al) for Efficient Adsorption of Dichloromethane and Trichlormethane

Wang

Zhang

Zhou

et al. 2016

Aerosol Air Qual. Res.

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Activation process designed to remove the solvent and unreacted ligands is the key step for the synthesis of metalorganic frameworks (MOFs). MIL-53(Al), a subclass of MOFs, was prepared using various synthesis and activation methods. Especially, a combined activation method was proposed. The performance of activation methods was evaluated by the specific surface area of the samples. The mechanism of activation methods was confirmed by the loading induced structural transition of MIL-53(Al) using X-ray diffraction. MIL-53(Al) activated by the combined method has the best performance and the adsorption capacities of vaporous dichloromethane (CH 2 Cl 2 ) and trichlormethane (CHCl 3 ) on this sample was investigated at 298 K and 101 kPa. The results of adsorption experiment show that MIL-53(Al) has larger adsorption capacity in CH 2 Cl 2 than CHCl 3 , which is consistent with the conclusion of molecular simulation (Grand Canonical Monte Carlo).

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Photocatalytic Degradation of Aqueous Nitrobenzene by Nanocrystalline TiO₂

Cited by 157 publications

References 26 publications

Preparation and Photocatalytic Performance of Anatase/Rutile Mixed-Phase TiO2 Nanotubes

Preparation and Photocatalytic Performance of Anatase/Rutile Mixed-Phase TiO2 Nanotubes

Pigments based on Cr and Sb doped TiO 2 prepared by microemulsion-mediated solvothermal synthesis for inkjet printing on ceramics

Activated MIL-53(Al) for Efficient Adsorption of Dichloromethane and Trichlormethane

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Photocatalytic Degradation of Aqueous Nitrobenzene by Nanocrystalline TiO2

Cited by 157 publications

References 26 publications

Preparation and Photocatalytic Performance of Anatase/Rutile Mixed-Phase TiO2 Nanotubes

Preparation and Photocatalytic Performance of Anatase/Rutile Mixed-Phase TiO2 Nanotubes

Pigments based on Cr and Sb doped TiO 2 prepared by microemulsion-mediated solvothermal synthesis for inkjet printing on ceramics

Activated MIL-53(Al) for Efficient Adsorption of Dichloromethane and Trichlormethane

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Photocatalytic Degradation of Aqueous Nitrobenzene by Nanocrystalline TiO₂