Journal of Magnesium and Alloys,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Feb. 1, 2024
This
review
paper
explores
the
efficacy
of
magnesium
ferrite-based
catalysts
in
photocatalytic
degradation
organic
contaminates
(antibiotic
and
dyes).
We
report
influence
different
doping
strategies,
synthesis
methods,
composite
materials
on
efficiency
these
pollutants.
Our
analysis
reveals
versatile
promising
nature
catalysts,
offering
valuable
insights
into
their
practical
application
for
restoring
environment.
Due
to
smaller
band
gap
magnetic
ferrite,
it
holds
benefit
utilising
broader
spectrum
light
while
also
being
recoverable.
The
in-depth
ferrites'
mechanism
could
lead
development
cheap
reliable
photocatalyst
wastewater
treatment.
concise
offers
a
thorough
summary
key
advancements
this
field,
highlighting
pivotal
role
ferrite
based
photocatalysts
addressing
pressing
global
issue
pollutants
wastewater.
Technologies,
Journal Year:
2023,
Volume and Issue:
11(5), P. 144 - 144
Published: Oct. 17, 2023
Environmental
pollution
poses
a
pressing
global
challenge,
demanding
innovative
solutions
for
effective
pollutant
removal.
Photocatalysts,
particularly
titanium
dioxide
(TiO2),
are
renowned
their
catalytic
prowess;
however,
they
often
require
ultraviolet
light
activation.
Researchers
had
turned
to
doping
with
metals
and
non-metals
extend
utility
into
the
visible
spectrum.
While
this
approach
shows
promise,
it
also
presents
challenges
such
as
material
stability
dopant
leaching.
Co-doping,
involving
both
non-metals,
has
emerged
viable
strategy
mitigate
these
limitations.
Inthe
fieldof
adsorbents,
carbon-based
materials
doped
nitrogen
gaining
attention
improved
adsorption
capabilities
CO2/N2
selectivity.
Nitrogen
enhances
surface
area
fosters
interactions
between
acidic
CO2
molecules
basic
functionalities.
The
optimal
combination
of
an
ultramicroporous
specific
functional
groups
is
key
achievehigh
uptake
values
integration
photocatalysis
processes
in
shown
synergistic
removal
efficiency.
Various
synthesis
methods,
including
sol–gel,
co-precipitation,
hydrothermal
approaches
been
employed
create
hybrid
units
photocatalysts
adsorbents.
progress
made
enhancing
performance
at
laboratory
scale,
persist
transitioning
technologies
large-scale
industrial
applications.
Rigorous
studies
needed
investigate
impact
on
structure
stability,
optimize
process
parameters,
assess
real-world
reactors.
These
advancements
promising
foraddressing
environmental
challenges,
promoting
sustainability,
paving
way
cleaner
healthier
future.
This
manuscript
provides
comprehensive
overview
recent
developments
strategies
offering
insights
potential
revolutionize
remediation
technologies.
