Deleted Journal,
Journal Year:
2025,
Volume and Issue:
20(1)
Published: April 24, 2025
Abstract
This
paper
delves
into
the
innovative
synthesis
of
various
morphologies
CeO₂,
including
flower-like,
spherical,
quasi-spherical,
and
rod-shaped,
as
well
AgI/CeO₂
composites.
Utilizing
cold
coprecipitation
one-pot
hydrothermal
methods,
a
range
CeO₂
highly
efficient
photocatalytic
composites
were
successfully
prepared.
These
were,
for
first
time,
applied
to
bamboo
scrimber
antimicrobial
research,
significantly
enhancing
its
antibacterial
properties.
Advanced
characterization
techniques
such
XRD,
SEM,
TEM,
FT-IR
employed
analyze
prepared
materials’
structural
characteristics
systematically.
Under
visible
light
irradiation,
activity
composite
catalysts
with
varying
AgI
loadings
was
evaluated
using
levofloxacin
(LVF)
model
pollutant.
The
results
indicated
that
20%AgI/CeO₂
exhibited
unique
mesoporous
structure,
high-specific
surface
area,
optimal
degradation
efficiency
LVF,
achieving
rate
up
94.06%.
Additionally,
this
bolstered
efficacy
scriber
under
conditions.
It
securely
anchored
onto
through
specific
treatment
process,
forming
durable
practical
protective
layer.
In
conclusion,
demonstrate
exceptional
performance
in
both
modification,
making
significant
contributions
environmental
protection
development
green
building
materials.
Deleted Journal,
Journal Year:
2025,
Volume and Issue:
20(1)
Published: April 24, 2025
Abstract
This
paper
delves
into
the
innovative
synthesis
of
various
morphologies
CeO₂,
including
flower-like,
spherical,
quasi-spherical,
and
rod-shaped,
as
well
AgI/CeO₂
composites.
Utilizing
cold
coprecipitation
one-pot
hydrothermal
methods,
a
range
CeO₂
highly
efficient
photocatalytic
composites
were
successfully
prepared.
These
were,
for
first
time,
applied
to
bamboo
scrimber
antimicrobial
research,
significantly
enhancing
its
antibacterial
properties.
Advanced
characterization
techniques
such
XRD,
SEM,
TEM,
FT-IR
employed
analyze
prepared
materials’
structural
characteristics
systematically.
Under
visible
light
irradiation,
activity
composite
catalysts
with
varying
AgI
loadings
was
evaluated
using
levofloxacin
(LVF)
model
pollutant.
The
results
indicated
that
20%AgI/CeO₂
exhibited
unique
mesoporous
structure,
high-specific
surface
area,
optimal
degradation
efficiency
LVF,
achieving
rate
up
94.06%.
Additionally,
this
bolstered
efficacy
scriber
under
conditions.
It
securely
anchored
onto
through
specific
treatment
process,
forming
durable
practical
protective
layer.
In
conclusion,
demonstrate
exceptional
performance
in
both
modification,
making
significant
contributions
environmental
protection
development
green
building
materials.
