ACS Omega,
Год журнала:
2024,
Номер
9(12), С. 13522 - 13533
Опубликована: Март 13, 2024
Soil
pollution
from
various
anthropogenic
and
natural
activities
poses
a
significant
threat
to
the
environment
human
health.
This
study
explored
sources
types
of
soil
emphasized
need
for
innovative
remediation
approaches.
Nanotechnology,
including
use
nanoparticles,
is
promising
approach
remediation.
Diverse
nanomaterials,
nanobiosorbents
nanobiosurfactants,
have
shown
great
potential
in
processes.
Nanotechnology
approaches
are
multifaceted.
Reduction
reactions
immobilization
techniques
demonstrate
versatility
nanomaterials
mitigating
pollution.
Nanomicrobial-based
bioremediation
further
enhances
efficiency
pollutant
degradation
agricultural
soils.
A
literature-based
screening
was
conducted
using
different
search
engines,
PubMed,
Web
Science,
Google
Scholar,
2010
2023.
Keywords
such
as
"soil
pollution,
nanotechnology,
nanoremediation,
heavy
metal
remediation,
remediation"
combinations
these
were
used.
The
metals
nanotechnology
has
demonstrated
results
offers
an
eco-friendly
sustainable
solution
address
this
critical
issue.
Nanobioremediation
robust
strategy
combatting
organic
contamination
soils,
pesticides
herbicides.
nanophytoremediation,
which
assist
plants
extracting
detoxifying
pollutants,
represents
cutting-edge
environmentally
friendly
tackling
Molecules,
Год журнала:
2024,
Номер
29(11), С. 2534 - 2534
Опубликована: Май 28, 2024
The
symbiotic
relationship
between
nitrogen-fixing
cyanobacteria
and
plants
offers
a
promising
avenue
for
sustainable
agricultural
practices
environmental
remediation.
This
review
paper
explores
the
molecular
interactions
nanoparticles,
shedding
light
on
their
potential
synergies
in
nanotechnology.
Delving
into
evolutionary
history
specialized
adaptations
of
cyanobacteria,
this
highlights
pivotal
role
fixing
atmospheric
nitrogen,
which
is
crucial
ecosystem
productivity.
discusses
unique
characteristics
metal
nanoparticles
emerging
applications
agriculture,
including
improved
nutrient
delivery,
stress
tolerance,
disease
resistance.
It
delves
complex
mechanisms
nanoparticle
entry
plant
cells,
intracellular
transport,
localization,
uncovering
impact
root-shoot
translocation
systemic
distribution.
Furthermore,
elucidates
cellular
responses
to
exposure,
emphasizing
oxidative
stress,
signaling
pathways,
enhanced
uptake.
as
carriers
essential
nutrients
implications
nutrient-use
efficiency
crop
yield
are
also
explored.
Insights
modulation
responses,
resistance,
phytoremediation
strategies
demonstrate
multifaceted
benefits
agriculture.
Current
trends,
prospects,
challenges
nanotechnology
discussed,
underscoring
need
responsible
safe
utilization.
By
harnessing
power
leveraging
attributes
paves
way
innovative,
sustainable,
efficient
practices.
Phytochemistry Reviews,
Год журнала:
2024,
Номер
23(5), С. 1497 - 1556
Опубликована: Март 18, 2024
Abstract
The
rise
of
air,
water,
and
soil
pollution
poses
a
significant
threat
to
global
health,
leading
widespread
disease
premature
mortality.
Soil
health
is
vital,
ensuring
the
production
safe
food,
but
it
compromised
by
pollutants
such
as
heavy
metals,
pesticides,
plastics,
excessive
fertilization,
resulting
in
depletion
beneficial
microorganisms
subsequently
groundwater
contamination.
Water
bodies
are
polluted
due
contamination
from
industrial
effluents,
domestic
wastewater,
agricultural
runoff,
oil
spillage,
further
intensifying
environmental
pollution.
On
other
hand,
atmospheric
pollution,
characterized
high
emissions
gases,
volatile
compounds,
greenhouse
not
only
impacts
climate
also
serious
risks
human
respiratory
diseases,
cardiovascular
issues,
increased
cancer
risks.
Thus,
strategic
utilization
traditional
plants
emerges
potent
tool
for
restoration
improving
health.
possess
natural
filtering
capabilities,
absorbing
soil,
thus
mitigating
their
adverse
effects.
Through
phytoremediation,
can
be
actively
used
extract
remove
contaminants,
contributing
detoxification
water
quality.
Additionally,
offer
various
benefits.
Moringa
oleifera
or
drumstick
plant
belonging
Moringaceae
family
one
indigenous
with
wide
applications,
that
grown
extreme
arid
conditions.
Since
ancient
times,
this
has
been
treating
skin
infections,
anaemia,
blood
impurities.
This
thrives
diverse
climates
addressing
over
300
different
aliments.
Rich
phytochemicals
bioactive
M.
serve
superfood,
offering
nutritional
values
exhibiting
potential
drug
development
fewer
side
Extensive
research
elucidated
properties
applications
,
however,
in-depth
needed
identify
molecules,
phytochemicals,
protein
compounds
involved,
which
will
aid
understanding
mechanisms
action
plant's
functions.
Although
studies
have
reported
several
individual
attributes
there
no
comprehensive
study
available
its
applications.
review
covers
findings
past
three
decades
provides
detailed
outline
parts,
environmental,
industrial,
food
aspects
documented
date.
International Journal of Nanoscience,
Год журнала:
2024,
Номер
unknown
Опубликована: Фев. 14, 2024
Co/Ni/Zn
triple
doped
[Formula:
see
text]-Fe
2
O
3
nanoparticles
(NPs)
have
been
synthesized
via
polyvinylpyrrolidone
(PVP)/Azadirachta
indica
(A.
Indica)
leaf
extract
coating.
XRD,
UV–Vis,
SEM,
TEM,
EDS,
Raman
spectroscopy,
FTIR,
VSM
were
used
to
characterize
the
NPs.
XRD
pattern
revealed
that
crystallite
size
of
NPs
ranges
from
14[Formula:
text]nm
21[Formula:
text]nm.
Spherical
found
by
SEM/TEM
examination
ranging
16[Formula:
26[Formula:
Analysis
magnetic
properties
antiferromagnetic
characteristics,
convergence
between
magnetization
curves
(MS),
and
switching
field
distribution
dM/dh
below
an
irreversible
temperature
text][Formula:
text]K.
Produced
catalyst
was
for
degradation
anionic
azo
dye
Malachite
green
(MG)
Rhodamine
blue
(RhB)
dyes
under
influence
UV
radiation.
RhB
MG
reduced
as
a
result
catalyzing
conversion
dissolved
hydroxyl
radicals
(OH)
when
exposed
visible
light.
This
shows
main
active
radical
specifically
engaged
in
photo-catalytic
breakdown
is
OH.
The
most
effective
photo-catalyst
determined
investigating
proposed
reusability
over
three
cycles.
retrieved
utilized
times
after
reaction
without
suffering
substantial
loss
catalytic
activity.
plant-mediated
significant
antioxidant
activity
due
their
higher
phenolic
content.
These
promising
future
with
potential
applications
health,
aging,
food
preservation,
cosmetics,
agriculture
environmental
protection.
