Resources,
Год журнала:
2024,
Номер
13(6), С. 70 - 70
Опубликована: Май 26, 2024
The
synthesis
of
inorganic
nanoparticles
for
diverse
applications
is
an
active
research
area
that
involves
physical
and
chemical
methods,
which
typically
are
expensive,
involve
hazardous
reagents,
use
complex
equipment
conditions,
consume
large
amounts
time
energy.
Thus,
green
methods
have
emerged
as
eco-friendly
easy
alternatives
nanoparticle
synthesis,
particularly
the
plant-based
extracts
from
fruit
juice,
leaves,
seeds,
peel,
stem,
barks,
roots,
act
reducing,
capping,
stabilizing
agents,
contributing
to
Sustainable
Development
Goals
circular
economy
principles.
Therefore,
been
synthesized
using
extracts,
including
gold,
silver,
titanium
dioxide,
zinc,
copper,
platinum,
zirconium,
iron,
selenium,
magnesium,
nickel,
sulfur,
cobalt,
palladium,
indium
nanoparticles,
exhibit
different
biological
activities
such
antioxidant,
antimicrobial,
dye
degradation,
cytotoxic,
analgesic,
sedative,
wound-healing,
skin
protection,
sensor
development,
plant-growth-promoting
effects.
this
review
summarizes
advantages
limitations
agents
synthesis.
Frontiers in Plant Science,
Год журнала:
2023,
Номер
14
Опубликована: Янв. 23, 2023
The
sustainability
of
crop
production
is
impacted
by
climate
change
and
land
degradation,
the
advanced
application
nanotechnology
paramount
importance
to
overcome
this
challenge.
development
nanomaterials
based
on
essential
nutrients
like
zinc
could
serve
as
a
basis
for
nanofertilizers
nanocomposite
synthesis
broader
agricultural
applications
quality
human
nutrition.
Therefore,
study
aimed
synthesize
oxide
nanoparticles
(ZnO
NPs)
using
pecan
(Carya
illinoinensis)
leaf
extract
investigate
their
effect
growth,
physiology,
nutrient
content,
antioxidant
properties
mustard
(Brassica
juncea).The
ZnO
NPs
were
characterized
UV-Vis
spectrophotometry,
Dynamic
Light
Scattering
(DLS),
X-ray
diffractometer
(XRD),
Scanning
Electron
Microscopy
(SEM),
Fourier
Transform
Infra-Red
Spectroscopy
(FTIR).
Mustard
plants
subjected
different
concentrations
ZnONPs
(0,
20,
40,
60,
80,
100
200
mg
L-1)
during
vegetative
growth
stage.The
spectra
revealed
absorption
maxima
at
362
nm
FTIR
identified
numerous
functional
groups
that
are
responsible
capping
stabilizing
NPs.
DLS
analysis
presented
monodispersed
84.5
size
highly
negative
zeta
potential
(-22.4
mV).
Overall,
enhanced
chlorophyll
content
(by
53
%),
relative
water
46
shoot
biomass,
membrane
stability
54
%)
net
photosynthesis
significantly
in
dose-dependent
manner.
In
addition,
supplement
augmented
K,
Fe,
Zn
flavonoid
contents
well
reactive
oxygen
species
increasing
capacity
leaves
up
97
%.In
conclusion,
can
be
potentially
used
plant
stimulant
novel
soil
amendment
enhancing
yields.
Besides,
biofortification
B.
juncea
with
helps
improve
nutritional
perhaps
potentiates
its
pharmaceutical
effects.
Resources,
Год журнала:
2024,
Номер
13(6), С. 70 - 70
Опубликована: Май 26, 2024
The
synthesis
of
inorganic
nanoparticles
for
diverse
applications
is
an
active
research
area
that
involves
physical
and
chemical
methods,
which
typically
are
expensive,
involve
hazardous
reagents,
use
complex
equipment
conditions,
consume
large
amounts
time
energy.
Thus,
green
methods
have
emerged
as
eco-friendly
easy
alternatives
nanoparticle
synthesis,
particularly
the
plant-based
extracts
from
fruit
juice,
leaves,
seeds,
peel,
stem,
barks,
roots,
act
reducing,
capping,
stabilizing
agents,
contributing
to
Sustainable
Development
Goals
circular
economy
principles.
Therefore,
been
synthesized
using
extracts,
including
gold,
silver,
titanium
dioxide,
zinc,
copper,
platinum,
zirconium,
iron,
selenium,
magnesium,
nickel,
sulfur,
cobalt,
palladium,
indium
nanoparticles,
exhibit
different
biological
activities
such
antioxidant,
antimicrobial,
dye
degradation,
cytotoxic,
analgesic,
sedative,
wound-healing,
skin
protection,
sensor
development,
plant-growth-promoting
effects.
this
review
summarizes
advantages
limitations
agents
synthesis.
