Journal
APPLIED SURFACE SCIENCE
Volume 613, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.apsusc.2022.155970
Keywords
Titanium oxide nanocomposite; Electrospinning; Band gap manipulation; Carbon fiber supporter; Photocatalysis
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A novel nanocomposite of (N,F)-co-doped TiO2-delta beads loaded onto C nanofibers was prepared using a three-step process, including electrospinning, solvothermal synthesis, and thermal treatment. The as-prepared nano-composite exhibited excellent photocatalytic activity for the degradation of pollutants under visible light irradiation. This was attributed to the reduced band gap, elemental doping of N and F, improved electrical conduction, and oxygen defects.
TiO2 is an excellent photocatalyst for pollutant disposal due to its high activity, high stability, non-toxicity, low cost and mild reaction conditions. However, its wide band gap (about 3.2 eV), easy recombination of photo -generated electrons and holes owing to the low electrical conduction, as well as easy agglomeration caused by size effect weaken the photocatalytic performance of TiO2. Herein a novel nanocomposite of (N,F)-co-doped TiO2-delta beads loaded onto C nanofibers was prepared via a three-step process of the electrospinning of PAN fibers, deposition of TiO2 via solvothermal synthesis, and the following thermal treatment. The as-prepared nano -composite exhibits excellent photocatalytic activity for the degradation of pollutants, which can remove 62.5% of RhB, 67.1% of MB and 51% of Cr(VI) under visible light irradiation from a 5 W LED lamp within 60 min, approximately 27.2, 5.2 and 4.6 times those over the commercially available TiO2 powders, respectively, due to the reduced band gap caused by oxygen deficiency together with the elemental doping of N and F, as well as the greatly improved electrical conduction through the C supporter and oxygen defects.
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