Deleted Journal,
Год журнала:
2023,
Номер
2(2), С. 1078 - 1088
Опубликована: Ноя. 10, 2023
Plant-mediated
methods
are
increasingly
favored
for
synthesizing
magnesium
oxide
nanoparticles
(MgONPs)
due
to
their
cost-effectiveness,
ease
of
use,
and
eco-friendly
nature
compared
chemical
physical
approaches.
In
this
study,
the
potential
plant-derived
phytochemicals
as
bio-reducing
capping
agents
in
synthesis
MgONPs
was
explored.
Specifically,
were
successfully
synthesized
using
an
aqueous
extract
obtained
from
rubber
seed
shells
(RSS)
leaves
(RL).
To
validate
MgONPs,
various
characterization
techniques
including
FTIR,
DLS,
XRD
SEM
employed.
The
FTIR
analysis
confirmed
formation
oxide.
According
DLS
analysis,
average
particle
size
derived
determined
be
1199
nm,
while
those
exhibited
44.57
nm.
X-ray
Diffraction
(XRD)
confirms
a
high
level
crystallinity
validates
crystalline
both
sets
nanoparticles.
examination
revealed
that
shell-based
displayed
irregular-shaped
particles
with
degree
aggregation,
whereas
more
uniform
spherical
morphology.
These
findings
highlight
efficacy
plant-mediated
extracts
MgONPs.
employed
study
provided
valuable
insights
into
structural
properties
Such
knowledge
is
crucial
further
exploration
utilization
approaches
nanomaterials
desired
sizes
morphologies,
contributing
development
cost-effective
environmentally
friendly
strategies
nanotechnology.
Frontiers in Environmental Science,
Год журнала:
2023,
Номер
11
Опубликована: Авг. 4, 2023
Environmental
nanotechnology
has
developed
rapidly
over
the
past
few
decades
due
to
fast
advancement
of
and
nanomaterials
(NMs).
Due
their
nanoscale
size,
NMs
are
receiving
immense
attention
in
research
development
worldwide.
Their
nano
size
led
better
catalysis,
high
reactivity,
adsorption
capacity.
In
wastewater
treatment,
significant
potential
improve
performance
efficiency
water
decontamination;
more
effectively,
it
provides
a
sustainable
way
keep
supplies
safe.
Numerous
studies
have
found
that
removing
harmful
components
from
by
employing
nanoparticles
conjunction
with
various
treatment
methods
is
effective.
The
purpose
current
investigation
conduct
review
envisioned
applications
wastewater.
These
include
carbonaceous
NMs,
metal-containing
nanoparticles,
nanocomposites,
all
which
will
be
reviewed
highlighted
depth.
RSC Advances,
Год журнала:
2025,
Номер
15(14), С. 10902 - 10957
Опубликована: Янв. 1, 2025
Strontium-based
nanoparticles
(SrNPs)
aid
bone
regeneration
and
combat
antimicrobial
resistance
by
enhancing
osteogenesis,
accelerating
healing,
targeting
resistant
pathogens.