Inorganic and Nano-Metal Chemistry,
Journal Year:
2022,
Volume and Issue:
unknown, P. 1 - 30
Published: June 30, 2022
As
an
emerging
science
now,
scientists
are
attracted
toward
nanomaterials
because
of
their
nanosize,
surface
area,
tunable
band
gaps,
morphology
as
well
potential
applications
in
medicine,
medical
devices,
textile
industries,
electronic
coating
and
other
industries.
Herein,
we
have
explained
the
stable
efficient
synthesis
protocols
different
nanomaterials.
This
comprehensive
review,
feel,
will
provide
insight
into
hydrothermal
method,
sol–gel
synthesis,
sonochemical
microwave
irradiation
chemical
vapor
deposition
various
applications.
The
exceptional
properties
make
them
superior
over
traditional
materials.
Therefore,
a
wider
application
prospect
future.
Research
on
is
significant
for
development
materials
science.
Magnetochemistry,
Journal Year:
2021,
Volume and Issue:
7(11), P. 145 - 145
Published: Oct. 31, 2021
Increased
request
for
metal
and
oxide
nanoparticles
has
led
to
their
large-scale
production
using
high-energy
methods
with
various
toxic
solvents.
This
cause
environmental
contamination,
thus
eco-friendly
"green"
synthesis
become
necessary.
An
alternative
way
synthesize
includes
bioresources,
such
as
plants
plant
products,
bacteria,
fungi,
yeast,
algae,
etc.
"Green"
low
toxicity,
is
safe
human
health
environment
compared
other
methods,
meaning
it
the
best
approach
obtaining
nanoparticles.
review
reveals
12
principles
of
chemistry
examples
biological
components
suitable
synthesis,
well
modern
scientific
research
magnetic
Particularly,
extracts
green
tea,
fruits,
roots,
leaves,
etc.,
obtain
Fe3O4
NPs.
The
precursors
egg
white
(albumen),
leaf
fruit
extracts,
can
be
used
spinel
are
being
widely
antimicrobials,
photocatalysts
adsorbents.
demonstrate
toxicity
high
biocompatibility,
which
allows
biomedical
application,
especially
targeted
drug
delivery,
contrast
imaging
hyperthermia
applications.
silver,
gold,
platinum
palladium
from
red
been
described.
Crystals,
Journal Year:
2023,
Volume and Issue:
13(11), P. 1576 - 1576
Published: Nov. 8, 2023
Green
synthesis
offers
a
superior
alternative
to
traditional
methods
for
producing
metal
and
oxide
nanoparticles.
This
approach
is
not
only
benign
safe
but
also
cost-effective,
scalable,
straightforward,
operating
under
ambient
conditions.
Notable
metals
nanoparticles,
such
as
manganese
oxides,
iron
silver,
gold,
have
been
produced
using
various
bio-reductants
derived
from
plant
extracts.
These
biological
agents
expedite
the
reduction
process
stabilize
serving
dual
roles
reducing
capping
agents.
review
presents
green
of
nanoparticles
(NPs)
obtained
biogenic
wastes
The
green-synthesized
nanostructured
MnO2
are
evaluated
potential
photocatalyst
water
treatment
an
electrode
material
in
lithium-ion
batteries
supercapacitors.
green-derived
examined
promising
antioxidant,
anti-inflammatory,
anti-diabetic
Additionally,
this
discusses
precious
specifically
silver
(Ag
NPs)
gold
(Au
NPs),
highlighting
their
medical
applications
areas
like
antiviral
treatments
cancer
therapy.
Catalysis Communications,
Journal Year:
2023,
Volume and Issue:
177, P. 106642 - 106642
Published: March 16, 2023
Persistent
organic
pollutants
(POPs)
are
proven
to
possess
considerable
resistance
environmental
degradation
such
that
they
could
not
be
entirely
removed
through
the
typical
treatment
processes.
The
consistent
presence
of
these
contributes
impending
obnoxious
health
impacts
concurrently
inflicted
on
wildlife
and
human
beings.
In
alignment
getting
rid
menaces,
photocatalysis
process
has
arrived
as
a
tremendous
remedy
thereby
availability
clean
secure
water
ensured.
this
review
we
focus
potential
progress
in
SnO2
nanostructures
for
enhancing
photocatalytic
pollutants,
its
current
challenges
future
perspectives.
Materials,
Journal Year:
2021,
Volume and Issue:
14(24), P. 7537 - 7537
Published: Dec. 8, 2021
The
biosynthesis
of
oxide
semiconductor
nanoparticles
(NPs)
using
materials
found
in
nature
opens
a
wide
field
study
focused
on
sustainability
and
environmental
protection.
Biosynthesized
NPs
have
the
capacity
to
eliminate
organic
dyes,
which
pollute
water
cause
severe
damage
environment.
In
present
work,
green
synthesis
zinc
(ZnO)
was
carried
out
Capsicum
annuum
var.
Anaheim
extract.
photocatalytic
elimination
methylene
blue
(MB),
methyl
orange
(MO),
Rhodamine
B
(RhB)
UV
radiation
evaluated.
were
characterized
by
scanning
transmission
electron
microscopy
(SEM
TEM)
SEM-coupled
energy
dispersive
spectroscopy
(EDS),
attenuated
total
reflectance-infrared
(ATR-IR),
X-ray
photoelectron
(XPS),
diffraction
(XRD),
Photoluminescence
(PL),
ultraviolet-visible
(UV-Vis).
TEM
analysis
showed
an
average
size
40
nm
quasi-spherical
shape.
ATR-IR
ZnO
contained
functional
groups
from
through
XRD
indicated
that
hexagonal
zincite
crystal
structure
with
crystallite
approximately
17
nm.
photoluminescence
spectrum
(PL)
presented
emission
band
at
402
From
UV-Vis
spectra
TAUC
model,
band-gap
value
be
2.93
eV.
Finally,
assessment
proved
achieved
100%
MB
60
min
exposure,
85
92%
degradation
MO
RhB,
respectively,
180
min.
This
indicates
NPs,
addition
friendly
method
for
their
synthesis,
manage
excellent
activity
various
pollutants.
