Abstract:
Photocatalytic activity of nanoparticles has become an emerging research field
in the world. Attention on nanocomposites of graphene oxide (GO) and
graphitic carbon nitride (g-C3N4) is increasing because of the metal-free
composition and higher photocatalytic activity. Synthesis, characterization,
and application of these nanocomposites (GO/g-C3N4) for degradation of
organic dyes under visible light are reported. The objective of the present study
was to study photocatalytic degradation of the textile dye Reactive black 5
(RB 5) by GO/g-C3N4 nanocomposites under visible light irradiation.
According to literature methods, GO was prepared by oxidizing graphite
powder via the modified Hummers method, g-C3N4 by thermal
polycondensation of urea and the nanocomposite GO/g-C3N4 (1:1) by mixing
aqueous suspensions of GO and g-C3N4 at pH= 3. The above nanocomposite
was characterized by UV-visible, FTIR, X-ray diffraction spectroscopy, and
scanning electron microscopy. Maximum absorbance for GO, g-C3N4, and
GO/g-C3N4 (1:1) were 232 nm, 415 nm, and 423 nm respectively. In the
absence of the catalyst and visible light, photodegradation did not take place.
The optimum condition for photocatalytic degradation of RB 5 by GO/g-C3N4
(1:1) was solar irradiation of a mixture of an aqueous solution of RB 5 (60
ppm, 100 mL) and the catalyst (30 mg), at pH = 4. Under these conditions, 97
% of degradation occurred within 60 min. The reusability of the catalyst five
times was successful. Studies with the scavengers Na2-EDTA, t-butanol, and
p-benzoquinone suggested that the above photocatalytic degradation process
is mainly by superoxide radicals.