Heliyon,
Journal Year:
2024,
Volume and Issue:
10(17), P. e36978 - e36978
Published: Aug. 28, 2024
The
abstract
highlights
the
global
issue
of
environmental
contamination
caused
by
organic
compounds
and
exploration
various
methods
for
its
resolution.
One
such
approach
involves
utilization
titanium
dioxide
(TiO
Catalysis Communications,
Journal Year:
2023,
Volume and Issue:
177, P. 106642 - 106642
Published: March 16, 2023
Persistent
organic
pollutants
(POPs)
are
proven
to
possess
considerable
resistance
environmental
degradation
such
that
they
could
not
be
entirely
removed
through
the
typical
treatment
processes.
The
consistent
presence
of
these
contributes
impending
obnoxious
health
impacts
concurrently
inflicted
on
wildlife
and
human
beings.
In
alignment
getting
rid
menaces,
photocatalysis
process
has
arrived
as
a
tremendous
remedy
thereby
availability
clean
secure
water
ensured.
this
review
we
focus
potential
progress
in
SnO2
nanostructures
for
enhancing
photocatalytic
pollutants,
its
current
challenges
future
perspectives.
Catalysts,
Journal Year:
2023,
Volume and Issue:
13(4), P. 765 - 765
Published: April 17, 2023
This
review
article
provides
current
developments
in
SnO2
quantum
dots
(QDs)
as
effective
catalysts
over
the
last
five
years.
QDs
are
exceptional
prospects
for
catalytic
applications
because
of
their
high
surface
area,
compact
size,
and
tunable
optical
features.
have
recently
made
strides
production
functionalization,
which
has
enabled
successful
use
them
photocatalytic
catalysts.
The
basic
concepts
QDs,
including
electrical
characteristics,
described
this
paper,
along
with
most
findings
on
functionalization.
Additionally,
it
covers
fundamental
mechanisms
that
support
QDs’
activity
emphasizes
difficulties
involved
using
Lastly,
offers
a
forecast
direction
research
quickly
evolving
topic.
Overall,
our
analysis
demonstrates
potential
cutting-edge
system
recent
Catalysts,
Journal Year:
2023,
Volume and Issue:
13(6), P. 1023 - 1023
Published: June 20, 2023
Photocatalysis
is
an
advanced
oxidation
process
that
environmentally
friendly
option
and
one
of
the
most
critical
technologies
in
green
chemistry
today.
This
work
studied
upscaling
photocatalysis
as
a
suitable
for
wastewater
treatment
to
remove
emerging
pollutants.
For
this
purpose,
unsupported
supported
TiO2
photocatalysts
were
tested
photodegradation
ciprofloxacin
model
molecule
component,
using
visible,
UV
radiation,
solar
light.
The
suitability
photocatalyst
decompose
was
confirmed
batch
photoreactor
under
Visible
with
degradation
rates
up
90%
after
30
min
irradiation
low
adsorption
values.
coated
glass
support
material
at
packed
bed
showed
good
photoactivity
emergent
contaminants
(95%)
radiation.
It
has
been
possible
verify
photocatalytic
reactor
system
constitutes
viable
eliminating
through
sustainable
treatments.
Our
results
corroborate
possibility
degrading
by
radiation
photoreactor,
providing
more
effective
from
practical
economical
point
view
effluent