Journal of Chemistry,
Год журнала:
2024,
Номер
2024(1)
Опубликована: Янв. 1, 2024
The
use
of
biosynthesized
metallic
and
bimetallic
nanoparticles
(NPs)
as
biocides
for
plant
protection
has
gained
significant
attention
in
recent
years
due
to
their
potential
sustainable
ecofriendly
crop
protection.
In
this
review
article,
we
discussed
the
biosynthesis
NPs
using
various
biological
sources
such
plants,
fungi,
bacteria,
algae.
We
explore
plausible
mechanisms
behind
biocidal
activity
these
NPs,
including
ability
disrupt
cellular
structures,
inhibit
enzyme
activity,
induce
oxidative
stress,
modulate
defense
responses.
also
highlight
challenges
limitations
associated
with
toxicity
nontarget
organisms,
impact
on
soil
health,
need
standardized
protocols
synthesis
characterization.
Additionally,
discuss
strategies
overcoming
challenges,
biocompatible
stabilizers,
controlled
release
formulations,
targeted
delivery
systems.
Overall,
hold
promise
effective
protection,
but
further
research
is
needed
fully
understand
action,
optimize
efficacy,
ensure
safe
agriculture.
addition
exploring
delves
into
cost‐benefit
analysis
application
With
the
rapid
advancement
of
industrialization,
wastewater
pollution
has
become
an
increasingly
severe
environmental
issue.
The
integration
photocatalysis
with
solar
interfacial
evaporation
technology,
which
leverages
abundant
and
clean
energy
power,
drawn
growing
attention
as
effective
solutions
to
this
problem.
In
study,
MoS2
nanosheets
low-dimensional
controllable
morphology
were
successfully
grown
on
layered
ZnIn2S4
using
a
simple
template
method,
resulting
in
novel
nanoflower
heterojunction
photocatalyst.
This
photocatalyst
was
then
combined
sodium
alginate,
aerogels
fabricated
through
directional
freezing
technology.
ZnIn2S4/MoS2
photocatalytic
aerogel
demonstrated
excellent
performance
under
visible
light,
efficiently
degrading
various
pollutants
such
rhodamine
B(RhB)(30
min,
99%),
methyl
orange(MO)(30
tetracycline(TC)(1h,
88%),
other
antibiotics
dyes.
Notably,
degradation
efficiency
for
tetracycline
remained
at
88%
even
after
five
cycles
use,
highlighting
aerogel's
strong
reusability
stability
across
different
pollutants.
Additionally,
current
composite
exhibits
rate
up
1.984
kg
m-2
h-1
photothermal
conversion
95.5%.
These
results
demonstrate
that
is
promising
candidate
sustainable
water
treatment,
broad
applicability
stable
polluted
environments.
Journal of Chemistry,
Год журнала:
2024,
Номер
2024(1)
Опубликована: Янв. 1, 2024
The
use
of
biosynthesized
metallic
and
bimetallic
nanoparticles
(NPs)
as
biocides
for
plant
protection
has
gained
significant
attention
in
recent
years
due
to
their
potential
sustainable
ecofriendly
crop
protection.
In
this
review
article,
we
discussed
the
biosynthesis
NPs
using
various
biological
sources
such
plants,
fungi,
bacteria,
algae.
We
explore
plausible
mechanisms
behind
biocidal
activity
these
NPs,
including
ability
disrupt
cellular
structures,
inhibit
enzyme
activity,
induce
oxidative
stress,
modulate
defense
responses.
also
highlight
challenges
limitations
associated
with
toxicity
nontarget
organisms,
impact
on
soil
health,
need
standardized
protocols
synthesis
characterization.
Additionally,
discuss
strategies
overcoming
challenges,
biocompatible
stabilizers,
controlled
release
formulations,
targeted
delivery
systems.
Overall,
hold
promise
effective
protection,
but
further
research
is
needed
fully
understand
action,
optimize
efficacy,
ensure
safe
agriculture.
addition
exploring
delves
into
cost‐benefit
analysis
application
