Dyes in wastewater are a serious problem that needs to
be resolved.
Adsorption coupled photocatalysis is an innovative technique used
to remove dyes from contaminated water. Novel composites of TiO
2
-Fe
3
C-Fe-Fe
3
O
4
dispersed
on graphitic carbon were fabricated using natural ilmenite sand as
the source of iron and titanium, and sucrose as the carbon source,
which were available at no cost. Synthesized composites were characterized
by X-ray diffractometry (XRD), Raman spectroscopy, transmission electron
microscopy (TEM), scanning electron microscopy (SEM), X-ray photoelectron
spectroscopy (XPS), X-ray fluorescence spectroscopy (XRF), and diffuse
reflectance UV–visible spectroscopy (DRS). Arrangement of nanoribbons
of graphitic carbon with respect to the nanomaterials was observed
in TEM images, revealing the occurrence of catalytic graphitization.
Variations in the intensity ratio (
I
D
/
I
G
),
L
a
and
L
D
, calculated from data obtained from Raman
spectroscopy suggested that the level of graphitization increased
with an increased loading of the catalysts. SEM images show the immobilization
of nanoplate microballs and nanoparticles on the graphitic carbon
matrix. The catalyst surface consists of Fe
3+
and Ti
4+
as the metal species, with V, Mn, and Zr being the main
impurities. According to DRS spectra, the synthesized composites absorb
light in the visible region efficiently. Fabricated composites effectively
adsorb methylene blue via π–π interactions, with
the absorption capacities ranging from 21.18 to 45.87 mg/g. They were
effective in photodegrading methylene blue under sunlight, where the
rate constants varied in the 0.003–0.007 min
–1
range. Photogenerated electrons produced by photocatalysts captured
by graphitic carbon produce O
2
•–
radicals, while holes generate OH
•
radicals, which
effectively degrade methylene blue molecules. TiO
2
-Fe
3
C-Fe-Fe
3
O
4
/graphitic carbon composites
inhibited the growth of
Escherichia coli
(69%) and
Staphylococcus aureus
(92%)
under visible light. Synthesized novel composites using natural materials
comprise an ecofriendly, cost-effective solution to remove dyes, and
they were effective in inhibiting the growth of Gram-negative and
Gram-positive bacteria.
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