Enhanced visible-light photocatalytic activity of titanium dioxide doped CNT-C aerogel

Enhanced visible-light photocatalytic activity of titanium dioxide doped CNT-C aerogel

[Display omitted] •A novel TiO2 doped CNT-C aerogel/xerogel was synthesized and characterized.•Photocatalytic degradation of MB was studied under visible irradiation.•More than 90% of the MB solution was removed using TiO2-CNT-C hybrid aerogels.•A decrease in the bandgap of CAT (1.89) compared to Ti...

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Bibliographic Details
Published in:Chemical engineering research & design Vol. 179; pp. 162 - 174
Main Authors: Salehi Taleghani, M., Salman Tabrizi, N., Sangpour, P.
Format: Journal Article
Language:English
Published: Rugby Elsevier Ltd 01-03-2022
Elsevier Science Ltd
Subjects:
Adsorption
Aerogels
Anatase
Aqueous solutions
Band gap
Carbon
Carbon aerogel
Carbon xerogel
Catalytic activity
CNT
Contaminants
Energy gap
Methylene blue
Multi wall carbon nanotubes
Nanocrystals
Photocatalysis
Photocatalyst
Photocatalysts
Photodegradation
Pollutants
Sol-gel processes
Sulfuric acid
Synthesis
Titanium
Titanium dioxide
X-ray diffraction
Xenon lamps
CNT
Carbon aerogel
Photocatalyst
Titanium dioxide
Carbon xerogel
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Summary:[Display omitted] •A novel TiO2 doped CNT-C aerogel/xerogel was synthesized and characterized.•Photocatalytic degradation of MB was studied under visible irradiation.•More than 90% of the MB solution was removed using TiO2-CNT-C hybrid aerogels.•A decrease in the bandgap of CAT (1.89) compared to TiO2 (3.1) was observed. Titanium dioxide is a widely used material as a photocatalyst. However, the wide bandgap and limitation of use at high concentrations of pollutants have impeded its widespread use. In this study, a novel aerogel of carbon–titanium dioxide hybrid strengthened by multi-walled carbon nanotubes was synthesized for photocatalytic degradation of organic pollutants from aqueous solutions under sunlight. TiO2 nanocrystals (about 9 nm in size) were synthesized by sol–gel method using TiCl4 as the precursor in sulfuric acid solution and the formed anatase phase was identified by XRD analysis. For characterization of the TiO2-CNT-C hybrid aerogels, various techniques like FESEM, EDS, XRD, BJH, BET, DRS and FTIR were utilized. The specific surface areas of the samples were between 410 and 480 m2 g−1. The DRS results showed a decrease in the band gap of the TiO2 hybrid aerogel (1.9 eV) relative to that of pure TiO2 (3.1 eV). To investigate the photocatalytic removal efficiency, methylene blue was used as a contaminant model. Photocatalytic experiments under Xenon lamp were performed with 20 mg photocatalyst in 100 ml of 50 ppm methylene blue solution. 6 samples (CAT-1, CAT-2, CXT, CA, TiO2, P25) were used to investigate the photocatalytic degradation activity. The highest removal efficiency was 95.50% and the kinetic studies revealed that the photocatalysts containing carbon aerogels followed the second-order kinetic model and the other samples followed the first-order kinetic model. The highest adsorption capacity was 238.756 mg g−1 and the lowest was 133.754 mg g−1. Adsorption–degradation mechanism was also speculated.
ISSN:0263-8762
1744-3563
DOI:10.1016/j.cherd.2022.01.015